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Section 59

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References:

Rodrigues-Díez, R.; Rayego-Mateos, S.; Orejudo, M.; Aroeira, L.S.; Selgas, R.; Ortiz, A.; Egido, J.ús.; Ruiz-Ortega, M. 2015: TGF-Beta Blockade Increases Renal Inflammation Caused by the C-Terminal Module of the CCN2. Mediators of Inflammation 2015: 506041
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Rizzo, S.; Basso, C.; Lazzarini, E.; Celeghin, R.; Paolin, A.; Gerosa, G.; Valente, M.; Thiene, G.; Pilichou, K. 2015: TGF-beta1 pathway activation and adherens junction molecular pattern in nonsyndromic mitral valve prolapse. Cardiovascular Pathology: the Official Journal of the Society for Cardiovascular Pathology 24(6): 359-367
Rustenhoven, J.; Aalderink, M.; Scotter, E.L.; Oldfield, R.L.; Bergin, P.S.; Mee, E.W.; Graham, E.S.; Faull, R.L.M.; Curtis, M.A.; Park, T.I.-H.; Dragunow, M. 2016: TGF-beta1 regulates human brain pericyte inflammatory processes involved in neurovasculature function. Journal of Neuroinflammation 13: 37
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Rendón-Ramirez, E.J.; Ortiz-Stern, A.; Martinez-Mejia, C.; Salinas-Carmona, M.C.; Rendon, A.; Mata-Tijerina, V.L.; Rosas-Taraco, A.G. 2015: TGF-β Blood Levels Distinguish Between Influenza a (H1N1)pdm09 Virus Sepsis and Sepsis due to other Forms of Community-Acquired Pneumonia. Viral Immunology 28(5): 248-254
Böhm, A.; Hoffmann, C.; Irmler, M.; Schneeweiss, P.; Schnauder, Günter.; Sailer, C.; Schmid, V.; Hudemann, J.; Machann, Jürgen.; Schick, F.; Beckers, J.; Hrabě de Angelis, M.; Staiger, H.; Fritsche, A.; Stefan, N.; Nieß, A.M.; Häring, H-Ulrich.; Weigert, C. 2016: TGF-β Contributes to Impaired Exercise Response by Suppression of Mitochondrial Key Regulators in Skeletal Muscle. Diabetes 65(10): 2849-2861
Carrella, S.; Barbato, S.; D'Agostino, Y.; Salierno, F.G.; Manfredi, A.; Banfi, S.; Conte, I. 2015: TGF-β Controls miR-181/ERK Regulatory Network during Retinal Axon Specification and Growth. Plos one 10(12): E0144129
Ma, C.; Mishra, S.; Demel, E.L.; Liu, Y.; Zhang, N. 2017: TGF-β Controls the Formation of Kidney-Resident T Cells via Promoting Effector T Cell Extravasation. Journal of Immunology 198(2): 749-756
Kyprianou, N. 2016: TGF-β Conveys Undesirable Side Effects of Androgen Depletion. Endocrinology 157(11): 4206-4208
Barrett, C.ét.S.X.; Millena, A.C.; Khan, S.A. 2017: TGF-β Effects on Prostate Cancer Cell Migration and Invasion Require FosB. Prostate 77(1): 72-81
Zhang, Y.; Alexander, P.B.; Wang, X.-F. 2017: TGF-β Family Signaling in the Control of Cell Proliferation and Survival. Cold Spring Harbor Perspectives in Biology 9(4)
Li, H.; He, G.; Yao, H.; Song, L.; Zeng, L.; Peng, X.; Rosol, T.J.; Deng, X. 2015: TGF-β Induces Degradation of PTHrP Through Ubiquitin-Proteasome System in Hepatocellular Carcinoma. Journal of Cancer 6(6): 511-518
Correa, L.F.; Zheng, Y.; Delaney, A.A.; Khan, Z.; Shenoy, C.C.; Daftary, G.S. 2016: TGF-β Induces Endometriotic Progression via a Noncanonical, KLF11-Mediated Mechanism. Endocrinology 157(9): 3332-3343
Hu, B.; Shi, C.; Tian, Y.; Zhang, Y.; Xu, C.; Chen, H.; Cao, P.; Yuan, W. 2015: TGF-β Induces Up-Regulation of Chondroitin Sulfate Synthase 1 (CHSY1) in Nucleus Pulposus Cells Through MAPK Signaling. Cellular Physiology and Biochemistry: International Journal of Experimental Cellular Physiology Biochemistry and Pharmacology 37(2): 793-804
Zhang, H.; Kozono, D.E.; O'Connor, K.W.; Vidal-Cardenas, S.; Rousseau, A.; Hamilton, A.; Moreau, L.; Gaudiano, E.F.; Greenberger, J.; Bagby, G.; Soulier, J.; Grompe, M.; Parmar, K.; D'Andrea, A.D. 2016: TGF-β Inhibition Rescues Hematopoietic Stem Cell Defects and Bone Marrow Failure in Fanconi Anemia. Cell Stem Cell 18(5): 668-681
Fang, W.B.; Mafuvadze, B.; Yao, M.; Zou, A.; Portsche, M.; Cheng, N. 2015: TGF-β Negatively Regulates CXCL1 Chemokine Expression in Mammary Fibroblasts through Enhancement of Smad2/3 and Suppression of HGF/c-Met Signaling Mechanisms. Plos one 10(8): E0135063
Chen, X.; Rateri, D.L.; Howatt, D.A.; Balakrishnan, A.; Moorleghen, J.J.; Cassis, L.A.; Daugherty, A. 2016: TGF-β Neutralization Enhances AngII-Induced Aortic Rupture and Aneurysm in Both Thoracic and Abdominal Regions. Plos one 11(4): E0153811
Tummala, H.; Dokal, I. 2016: TGF-β Pathway Inhibition Signals new Hope for Fanconi Anemia. Cell Stem Cell 18(5): 567-568
Nigdelioglu, R.; Hamanaka, R.B.; Meliton, A.Y.; O'Leary, E.; Witt, L.J.; Cho, T.; Sun, K.; Bonham, C.; Wu, D.; Woods, P.S.; Husain, A.N.; Wolfgeher, D.; Dulin, N.O.; Chandel, N.S.; Mutlu, G.ök.M. 2016: Transforming Growth Factor (TGF)-β Promotes de Novo Serine Synthesis for Collagen Production. Journal of Biological Chemistry 291(53): 27239-27251
Chen, W.; Zhong, X.; Wei, Y.; Liu, Y.; Yi, Q.; Zhang, G.; He, L.; Chen, F.; Liu, Y.; Luo, J. 2016: TGF-β Regulates Survivin to Affect Cell Cycle and the Expression of EGFR and MMP9 in Glioblastoma. Molecular Neurobiology 53(3): 1648-1653
Sun, Z.; Ettensohn, C.A. 2017: TGF-β sensu stricto signaling regulates skeletal morphogenesis in the sea urchin embryo. Developmental Biology 421(2): 149-160
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Tözser, J.; Earwood, R.; Kato, A.; Brown, J.; Tanaka, K.; Didier, R.; Megraw, T.L.; Blum, M.; Kato, Y. 2015: TGF-β Signaling Regulates the Differentiation of Motile Cilia. Cell Reports 11(7): 1000-1007
Hata, A.; Chen, Y.-G. 2016: TGF-β Signaling from Receptors to Smads. Cold Spring Harbor Perspectives in Biology 8(9)
Lamora, A.; Talbot, J.; Mullard, M.; Brounais-Le Royer, B.; Redini, F.ço.; Verrecchia, F. 2016: TGF-β Signaling in Bone Remodeling and Osteosarcoma Progression. Journal of Clinical Medicine 5(11)
Syed, V. 2016: TGF-β Signaling in Cancer. Journal of Cellular Biochemistry 117(6): 1279-1287
Ihara, S.; Hirata, Y.; Serizawa, T.; Suzuki, N.; Sakitani, K.; Kinoshita, H.; Hayakawa, Y.; Nakagawa, H.; Ijichi, H.; Tateishi, K.; Koike, K. 2016: TGF-β Signaling in Dendritic Cells Governs Colonic Homeostasis by Controlling Epithelial Differentiation and the Luminal Microbiota. Journal of Immunology 196(11): 4603-4613
Li, W.; Wei, W.; Ding, S. 2016: TGF-β Signaling in Stem Cell Regulation. Methods in Molecular Biology 1344: 137-145
Sureshbabu, A.; Muhsin, S.A.; Choi, M.E. 2016: TGF-β signaling in the kidney: profibrotic and protective effects. American Journal of Physiology. Renal Physiology 310(7): F596-F606
Thatcher, S.E. 2016: TGF-β Signaling: new Insights into Aortic Aneurysms. Ebiomedicine 12: 24-25
Davies, M.R.; Liu, X.; Lee, L.; Laron, D.; Ning, A.Y.; Kim, H.T.; Feeley, B.T. 2016: TGF-β Small Molecule Inhibitor SB431542 Reduces Rotator Cuff Muscle Fibrosis and Fatty Infiltration by Promoting Fibro/Adipogenic Progenitor Apoptosis. Plos one 11(5): E0155486
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Kawasaki, M.; Ezura, Y.; Hayata, T.; Notomi, T.; Izu, Y.; Noda, M. 2015: TGF-β Suppresses Ift88 Expression in Chondrocytic ATDC5 Cells. Journal of Cellular Physiology 230(11): 2788-2795
Pefani, D.-E.; Pankova, D.; Abraham, A.G.; Grawenda, A.M.; Vlahov, N.; Scrace, S.; O' Neill, E. 2016: TGF-β Targets the Hippo Pathway Scaffold RASSF1A to Facilitate YAP/SMAD2 Nuclear Translocation. Molecular Cell 63(1): 156-166
David, C.J.; Huang, Y.-H.; Chen, M.; Su, J.; Zou, Y.; Bardeesy, N.; Iacobuzio-Donahue, C.A.; Massagué, J. 2016: TGF-β Tumor Suppression through a Lethal EMT. Cell 164(5): 1015-1030
Kim, M-Jin.; Park, S-A.; Kim, C.Hwa.; Park, S-Yeon.; Kim, J-Shin.; Kim, D-Kee.; Nam, J-Seok.; Sheen, Y.Yhong. 2016: TGF-β Type I Receptor Kinase Inhibitor EW-7197 Suppresses Cholestatic Liver Fibrosis by Inhibiting HIF1α-Induced Epithelial Mesenchymal Transition. Cellular Physiology and Biochemistry: International Journal of Experimental Cellular Physiology Biochemistry and Pharmacology 38(2): 571-588
Pavlides, S.C.; Lecanda, J.; Daubriac, J.; Pandya, U.M.; Gama, P.; Blank, S.; Mittal, K.; Shukla, P.; Gold, L.I. 2016: TGF-β activates APC through Cdh1 binding for Cks1 and Skp2 proteasomal destruction stabilizing p27kip1 for normal endometrial growth. Cell Cycle 15(7): 931-947
Orr, S.; Strominger, I.; Eremenko, E.; Vinogradov, E.; Ruvinov, E.; Monsonego, A.; Cohen, S. 2016: TGF-β affinity-bound to a macroporous alginate scaffold generates local and peripheral immunotolerant responses and improves allocell transplantation. Acta Biomaterialia 45: 196-209
Varghese, S.; Braggio, D.A.; Gillespie, J.; Toland, A.E.; Pollock, R.; Mayerson, J.; Scharschmidt, T.; Iwenofu, O.H. 2017: TGF-β and CTGF are Mitogenic Output Mediators of Wnt/β-Catenin Signaling in Desmoid Fibromatosis. Applied Immunohistochemistry and Molecular Morphology: Aimm 25(8): 559-565
Chen, X.-H.; Liu, Z.-C.; Zhang, G.; Wei, W.; Wang, X.-X.; Wang, H.; Ke, H.-P.; Zhang, F.; Wang, H.-S.; Cai, S.-H.; Du, J. 2015: TGF-β and EGF induced HLA-i downregulation is associated with epithelial-mesenchymal transition (EMT) through upregulation of snail in prostate cancer cells. Molecular Immunology 65(1): 34-42
Lee, S.-l.-o.; Ryu, H.; Son, A.-r.; Seo, B.; Kim, J.; Jung, S.-Y.; Song, J.-Y.; Hwang, S.-G.; Ahn, J. 2016: TGF-β and Hypoxia/Reoxygenation Promote Radioresistance of A549 Lung Cancer Cells through Activation of Nrf2 and EGFR. Oxidative Medicine and Cellular Longevity 2016: 6823471
Chen, H.-W.; Tsai, J.-P.; Yao, T.-Y.; Hsieh, C.-L.; Chen, I.-H.; Liu, S.-J. 2016: TGF-β and IL-21 cooperatively stimulate activated CD8(+) T cells to differentiate into Tc17 cells. Immunology Letters 174: 23-27
Li, Z-Yuan.; Chen, Z-Li.; Zhang, T.; Wei, C.; Shi, W-Yun. 2016: TGF-β and NF-κB signaling pathway crosstalk potentiates corneal epithelial senescence through an RNA stress response. Aging 8(10): 2337-2354
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Antón-Pacheco, J.L.; Usategui, A.; Martínez, I.án.; García-Herrero, C.M.; Gamez, A.P.; Grau, M.; Martínez, A.M.; Rodríguez-Peralto, J.é L.; Pablos, J.é L. 2017: TGF-β antagonist attenuates fibrosis but not luminal narrowing in experimental tracheal stenosis. Laryngoscope 127(3): 561-567
Soares, K.C.; Rucki, A.A.; Kim, V.; Foley, K.; Solt, S.; Wolfgang, C.L.; Jaffee, E.M.; Zheng, L. 2015: TGF-β blockade depletes T regulatory cells from metastatic pancreatic tumors in a vaccine dependent manner. Oncotarget 6(40): 43005-43015
Liu, H.-P.; Cao, A.T.; Feng, T.; Li, Q.; Zhang, W.; Yao, S.; Dann, S.M.; Elson, C.O.; Cong, Y. 2015: TGF-β converts Th1 cells into Th17 cells through stimulation of Runx1 expression. European Journal of Immunology 45(4): 1010-1018
Inoue, Y.; Abe, K.; Onozaki, K.; Hayashi, H. 2015: TGF-β decreases the stability of IL-18-induced IFN-γ mRNA through the expression of TGF-β-induced tristetraprolin in KG-1 cells. Biological and Pharmaceutical Bulletin 38(4): 536-544
Karoń, P.ła.; Olejek, A.; Olszak-Wasik, K. 2014: TGF-β expression in vulvar cancer. Ginekologia Polska 85(11): 847-851
Frisch, J.; Rey-Rico, A.; Venkatesan, J.Kumar.; Schmitt, G.; Madry, H.; Cucchiarini, M. 2016: TGF-β gene transfer and overexpression via rAAV vectors stimulates chondrogenic events in human bone marrow aspirates. Journal of Cellular and Molecular Medicine 20(3): 430-440
Wang, Y.; Zong, L.; Wang, X. 2016: TGF-β improves myocardial function and prevents apoptosis induced by anoxia-reoxygenation, through the reduction of endoplasmic reticulum stress. Canadian Journal of Physiology and Pharmacology 94(1): 9-17
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Yamada, C.; Aikawa, T.; Okuno, E.; Miyagawa, K.; Amano, K.; Takahata, S.; Kimata, M.; Okura, M.; Iida, S.; Kogo, M. 2016: TGF-β in jaw tumor fluids induces RANKL expression in stromal fibroblasts. International Journal of Oncology 49(2): 499-508
Johnston, C.J.C.; Smyth, D.J.; Dresser, D.W.; Maizels, R.M. 2016: TGF-β in tolerance, development and regulation of immunity. Cellular Immunology 299: 14-22
Wang, Z.-h.; Zhang, Q.-s.; Duan, Y.-l.; Zhang, J.-l.; Li, G.-f.; Zheng, D.-l. 2015: TGF-β induced miR-132 enhances the activation of TGF-β signaling through inhibiting SMAD7 expression in glioma cells. Biochemical and Biophysical Research Communications 463(3): 187-192
Guan, Z.; Song, B.; Liu, F.; Sun, D.; Wang, K.; Qu, H. 2015: TGF-β induces HLA-G expression through inhibiting miR-152 in gastric cancer cells. Journal of Biomedical Science 22: 107
Zhang, F.; Wang, H.; Wang, X.; Jiang, G.; Liu, H.; Zhang, G.; Wang, H.; Fang, R.; Bu, X.; Cai, S.; Du, J. 2016: TGF-β induces M2-like macrophage polarization via SNAIL-mediated suppression of a pro-inflammatory phenotype. Oncotarget 7(32): 52294-52306
Weina, K.; Wu, H.; Knappe, N.; Orouji, E.; Novak, D.; Bernhardt, M.; Hüser, L.; Larribère, L.; Umansky, V.; Gebhardt, C.; Utikal, J. 2016: TGF-β induces SOX2 expression in a time-dependent manner in human melanoma cells. Pigment Cell and Melanoma Research 29(4): 453-458
Li, L.; Cao, F.; Liu, B.; Luo, X.; Ma, X.; Hu, Z. 2015: TGF-β induces fascin expression in gastric cancer via phosphorylation of smad3 linker area. American Journal of Cancer Research 5(6): 1890-1896
Cardenas, H.; Vieth, E.; Lee, J.; Segar, M.; Liu, Y.; Nephew, K.P.; Matei, D. 2014: TGF-β induces global changes in DNA methylation during the epithelial-to-mesenchymal transition in ovarian cancer cells. Epigenetics 9(11): 1461-1472
Liu, L.; Lin, W.; Zhang, Q.; Cao, W.; Liu, Z. 2016: TGF-β induces miR-30d down-regulation and podocyte injury through Smad2/3 and HDAC3-associated transcriptional repression. Journal of Molecular Medicine 94(3): 291-300
Kobayashi, S.; Watanabe, T.; Suzuki, R.; Furu, M.; Ito, H.; Ito, J.; Matsuda, S.; Yoshitomi, H. 2016: TGF-β induces the differentiation of human CXCL13-producing CD4(+) T cells. European Journal of Immunology 46(2): 360-371
Gao, X.; Lee, H.-Y.; da Rocha, E.L.; Zhang, C.; Lu, Y.-F.; Li, D.; Feng, Y.; Ezike, J.; Elmes, R.R.; Barrasa, M.I.; Cahan, P.; Li, H.; Daley, G.Q.; Lodish, H.F. 2016: TGF-β inhibitors stimulate red blood cell production by enhancing self-renewal of BFU-E erythroid progenitors. Blood 128(23): 2637-2641
Viel, S.éb.; Marçais, A.; Guimaraes, F.S.-F.; Loftus, R.; Rabilloud, J.; Grau, M.; Degouve, S.; Djebali, S.; Sanlaville, A.él.; Charrier, E.; Bienvenu, J.; Marie, J.C.; Caux, C.; Marvel, J.; Town, L.; Huntington, N.D.; Bartholin, L.; Finlay, D.; Smyth, M.J.; Walzer, T. 2016: TGF-β inhibits the activation and functions of NK cells by repressing the mTOR pathway. Science Signaling 9(415): Ra19
Blaney Davidson, E.N.; van Caam, A.P.M.; Vitters, E.L.; Bennink, M.B.; Thijssen, E.; van den Berg, W.B.; Koenders, M.I.; van Lent, P.L.E.M.; van de Loo, F.A.J.; van der Kraan, P.M. 2015: TGF-β is a potent inducer of Nerve Growth Factor in articular cartilage via the ALK5-Smad2/3 pathway. Potential role in OA related pain?. Osteoarthritis and Cartilage 23(3): 478-486
Bordelon, J.R.; Grichnik, J.M. 2015: TGF-β may control the switch between tumorigenic growth and "stem cell/mesenchymal" potentially drug-resistant states. Dermatologic Therapy 28(3): 177-178
Oshimori, N.; Oristian, D.; Fuchs, E. 2015: TGF-β promotes heterogeneity and drug resistance in squamous cell carcinoma. Cell 160(5): 963-976
Lee, Y-Ung.; de Dios Ruiz-Rosado, J.; Mahler, N.; Best, C.A.; Tara, S.; Yi, T.; Shoji, T.; Sugiura, T.; Lee, A.Y.; Robledo-Avila, F.; Hibino, N.; Pober, J.S.; Shinoka, T.; Partida-Sanchez, S.; Breuer, C.K. 2016: TGF-β receptor 1 inhibition prevents stenosis of tissue-engineered vascular grafts by reducing host mononuclear phagocyte activation. Faseb Journal: Official Publication of the Federation of American Societies for Experimental Biology 30(7): 2627-2636
Lewis, G.M.; Wehrens, E.J.; Labarta-Bajo, L.; Streeck, H.; Zuniga, E.I. 2016: TGF-β receptor maintains CD4 T helper cell identity during chronic viral infections. Journal of Clinical Investigation 126(10): 3799-3813
Calvet, C.Magalhães.; Silva, T.Araújo.; DE Melo, T.Galvão.; DE Araújo-Jorge, Tânia.Cremonini.; Pereira, M.Claudia.DE.Souza. 2016: TGF-β receptor type II costameric localization in cardiomyocytes and host cell TGF-β response is disrupted by Trypanosoma cruzi infection. Parasitology 143(6): 704-715
Choi, S.-I.; Jin, J.-Y.; Maeng, Y.-S.; Kim, T.-I.; Kim, E.K. 2016: TGF-β regulates TGFBIp expression in corneal fibroblasts via miR-21, miR-181a, and Smad signaling. Biochemical and Biophysical Research Communications 472(1): 150-155
Shen, Y.; Wei, Y.; Wang, Z.; Jing, Y.; He, H.; Yuan, J.; Li, R.; Zhao, Q.; Wei, L.; Yang, T.; Lu, J. 2015: TGF-β regulates hepatocellular carcinoma progression by inducing Treg cell polarization. Cellular Physiology and Biochemistry: International Journal of Experimental Cellular Physiology Biochemistry and Pharmacology 35(4): 1623-1632
Huang, G.; Osmulski, P.A.; Bouamar, H.; Mahalingam, D.; Lin, C.-L.; Liss, M.A.; Kumar, A.P.; Chen, C.-L.; Thompson, I.M.; Sun, L.-Z.; Gaczynska, M.E.; Huang, T.H.-M. 2016: TGF-β signal rewiring sustains epithelial-mesenchymal transition of circulating tumor cells in prostate cancer xenograft hosts. Oncotarget 7(47): 77124-77137
Zhai, G.; Doré, J.; Rahman, P. 2015: TGF-β signal transduction pathways and osteoarthritis. Rheumatology International 35(8): 1283-1292
Vaidya, A.; Kale, V.P. 2015: TGF-β signaling and its role in the regulation of hematopoietic stem cells. Systems and Synthetic Biology 9(1-2): 1-10
Han, J.; Alvarez-Breckenridge, C.A.; Wang, Q.-E.; Yu, J. 2015: TGF-β signaling and its targeting for glioma treatment. American Journal of Cancer Research 5(3): 945-955
Dineen, A.; Gaudet, J. 2014: TGF-β signaling can act from multiple tissues to regulate C. elegans body size. Bmc Developmental Biology 14: 43
Naka, K. 2015: TGF-β signaling in cancer stem cells. Nihon Rinsho. Japanese Journal of Clinical Medicine 73(5): 784-789
Ishimaru, Y.; Tomonari, S.; Matsuoka, Y.; Watanabe, T.; Miyawaki, K.; Bando, T.; Tomioka, K.; Ohuchi, H.; Noji, S.; Mito, T. 2016: TGF-β signaling in insects regulates metamorphosis via juvenile hormone biosynthesis. Proceedings of the National Academy of Sciences of the United States of America 113(20): 5634-5639
Katz, L.H.; Likhter, M.; Jogunoori, W.; Belkin, M.; Ohshiro, K.; Mishra, L. 2016: TGF-β signaling in liver and gastrointestinal cancers. Cancer Letters 379(2): 166-172
Blank, U.; Karlsson, S. 2015: TGF-β signaling in the control of hematopoietic stem cells. Blood 125(23): 3542-3550
Argentou, N.; Germanidis, G.; Hytiroglou, P.; Apostolou, E.; Vassiliadis, T.; Patsiaoura, K.; Sideras, P.; Germenis, A.E.; Speletas, M. 2016: TGF-β signaling is activated in patients with chronic HBV infection and repressed by SMAD7 overexpression after successful antiviral treatment. Inflammation Research: Official Journal of the European Histamine Research Society . 65(5): 355-365
Eleftherianos, I.; Castillo, J.C.; Patrnogic, J. 2016: TGF-β signaling regulates resistance to parasitic nematode infection in Drosophila melanogaster. Immunobiology 221(12): 1362-1368
Fabregat, I.; Moreno-Càceres, J.; Sánchez, A.án.; Dooley, S.; Dewidar, B.; Giannelli, G.; Ten Dijke, P. 2016: TGF-β signalling and liver disease. Febs Journal 283(12): 2219-2232
Gratchev, A. 2017: TGF-β signalling in tumour associated macrophages. Immunobiology 222(1): 75-81
Lei, C.; Zhou, X.; Pang, Y.; Mao, Y.; Lu, X.; Li, M.; Zhang, J. 2015: TGF-β signalling prevents pancreatic beta cell death after proliferation. Cell Proliferation 48(3): 356-362
Cannaerts, E.; van de Beek, G.; Verstraeten, A.; Van Laer, L.; Loeys, B. 2015: TGF-β signalopathies as a paradigm for translational medicine. European Journal of Medical Genetics 58(12): 695-703
Japa, O.; Hodgkinson, J.E.; Emes, R.D.; Flynn, R.J. 2015: TGF-β superfamily members from the helminth Fasciola hepatica show intrinsic effects on viability and development. Veterinary Research 46: 29
Gumucio, J.P.; Sugg, K.B.; Mendias, C.L. 2015: TGF-β superfamily signaling in muscle and tendon adaptation to resistance exercise. Exercise and Sport Sciences Reviews 43(2): 93-99
Young, J.C.; Wakitani, S.; Loveland, K.L. 2015: TGF-β superfamily signaling in testis formation and early male germline development. Seminars in Cell and Developmental Biology 45: 94-103
Mangano, A.; Mangano, A.; Lianos, G.D.; Picone, M.; Dionigi, G. 2015: TGF-β superfamily, molecular signaling and biomimetic features for bone regeneration: historical perspectives and future applications. Updates in Surgery 67(3): 321-323
Liang, G.; Liu, G.; Kitamura, K.; Wang, Z.; Chowdhury, S.; Monjurul, A.M.; Wakae, K.; Koura, M.; Shimadu, M.; Kinoshita, K.; Muramatsu, M. 2015: TGF-β suppression of HBV RNA through AID-dependent recruitment of an RNA exosome complex. Plos Pathogens 11(4): E1004780
Qiao, Y.; Han, X.; Guan, G.; Wu, N.; Sun, J.; Pak, V.; Liang, G. 2016: TGF-β triggers HBV cccDNA degradation through AID-dependent deamination. Febs Letters 590(3): 419-427
Sussman, C.R. 2016: Tgf-β, Notch, and HGF weave a tangled web of kidney repair. American Journal of Physiology. Renal Physiology 310(8): F744-F745
Hashimoto, M.; Yanagisawa, H.; Minagawa, S.; Sen, D.; Ma, R.; Murray, L.A.; Tsui, P.; Lou, J.; Marks, J.D.; Baron, J.L.; Krummel, M.F.; Nishimura, S.L. 2015: TGF-β-Dependent Dendritic Cell Chemokinesis in Murine Models of Airway Disease. Journal of Immunology 195(3): 1182-1190
Xu, A.; Liu, Y.; Chen, W.; Wang, J.; Xue, Y.; Huang, F.; Rong, L.; Lin, J.; Liu, D.; Yan, M.; Li, Q.-Z.; Li, B.; Song, J.; Olsen, N.; Zheng, S.G. 2016: TGF-β-Induced Regulatory T Cells Directly Suppress B Cell Responses through a Noncytotoxic Mechanism. Journal of Immunology 196(9): 3631-3641
Cantelli, G.; Orgaz, J.L.; Rodriguez-Hernandez, I.; Karagiannis, P.; Maiques, O.; Matias-Guiu, X.; Nestle, F.O.; Marti, R.M.; Karagiannis, S.N.; Sanz-Moreno, V. 2015: TGF-β-Induced Transcription Sustains Amoeboid Melanoma Migration and Dissemination. Current Biology: Cb 25(22): 2899-2914
Yang, P.; Zhang, Y.; Markowitz, G.J.; Guo, X.; Wang, X.-F. 2016: TGF-β-Regulated MicroRNAs and their Function in Cancer Biology. Methods in Molecular Biology 1344: 325-339
Yang, H.; Wang, L.; Zhao, J.; Chen, Y.; Lei, Z.; Liu, X.; Xia, W.; Guo, L.; Zhang, H.-T. 2015: TGF-β-activated SMAD3/4 complex transcriptionally upregulates N-cadherin expression in non-small cell lung cancer. Lung Cancer 87(3): 249-257
Woods, P.S.; Tazi, M.F.; Chesarino, N.M.; Amer, A.O.; Davis, I.C. 2015: TGF-β-induced IL-6 prevents development of acute lung injury in influenza A virus-infected F508del CFTR-heterozygous mice. American Journal of Physiology. Lung Cellular and Molecular Physiology 308(11): L1136-L1144
MaruYama, T. 2015: TGF-β-induced IκB-ζ controls Foxp3 gene expression. Biochemical and Biophysical Research Communications 464(2): 586-589
Kurebayashi, Y.; Baba, Y.; Minowa, A.; Nadya, N.A.; Azuma, M.; Yoshimura, A.; Koyasu, S.; Nagai, S. 2016: TGF-β-induced phosphorylation of Akt and Foxo transcription factors negatively regulates induced regulatory T cell differentiation. Biochemical and Biophysical Research Communications 480(1): 114-119
Spanjer, A.I.R.; Baarsma, H.A.; Oostenbrink, L.M.; Jansen, S.R.; Kuipers, C.C.; Lindner, M.; Postma, D.S.; Meurs, H.; Heijink, I.H.; Gosens, R.; Königshoff, M. 2016: TGF-β-induced profibrotic signaling is regulated in part by the WNT receptor Frizzled-8. Faseb Journal: Official Publication of the Federation of American Societies for Experimental Biology 30(5): 1823-1835
Hesler, R.A.; Huang, J.J.; Starr, M.D.; Treboschi, V.M.; Bernanke, A.G.; Nixon, A.B.; McCall, S.J.; White, R.R.; Blobe, G.C. 2016: TGF-β-induced stromal CYR61 promotes resistance to gemcitabine in pancreatic ductal adenocarcinoma through downregulation of the nucleoside transporters hENT1 and hCNT3. Carcinogenesis 37(11): 1041-1051
Zhao, J.; Liu, J.; Lee, J.-F.; Zhang, W.; Kandouz, M.; VanHecke, G.C.; Chen, S.; Ahn, Y.-H.; Lonardo, F.; Lee, M.-J. 2016: Tgf-Β/Smad3 Pathway Stimulates Sphingosine-1 Phosphate Receptor 3 Expression: Implication of Sphingosine-1 Phosphate Receptor 3 in Lung Adenocarcinoma Progression. Journal of Biological Chemistry 291(53): 27343-27353
Muñoz-Félix, Jé.M.; González-Núñez, Mía.; Martínez-Salgado, C.; López-Novoa, Jé.M. 2015: TGF-β/BMP proteins as therapeutic targets in renal fibrosis. Where have we arrived after 25 years of trials and tribulations?. Pharmacology and Therapeutics 156: 44-58
Xu, F.; Liu, C.; Zhou, D.; Zhang, L. 2016: TGF-β/SMAD Pathway and its Regulation in Hepatic Fibrosis. Journal of Histochemistry and Cytochemistry: Official Journal of the Histochemistry Society 64(3): 157-167
Meng, X.-M.; Tang, P.M.-K.; Li, J.; Lan, H.Y. 2015: TGF-β/Smad signaling in renal fibrosis. Frontiers in Physiology 6: 82
Yu, J.-R.; Tai, Y.; Jin, Y.; Hammell, M.C.; Wilkinson, J.E.; Roe, J.-S.; Vakoc, C.R.; Van Aelst, L. 2015: TGF-β/Smad signaling through DOCK4 facilitates lung adenocarcinoma metastasis. Genes and Development 29(3): 250-261
Zhao, H.-w.; Li, Y.-W.; Feng, R.; Yu, J.-B.; Li, J.; Zhang, Y.; Li, J.-C.; Wang, Y.-X. 2015: TGF-β/Smad2/3 signal pathway involves in U251 cell proliferation and apoptosis. Gene 562(1): 76-82
Wang, S.; Meng, X.-M.; Ng, Y.-Y.; Ma, F.Y.; Zhou, S.; Zhang, Y.; Yang, C.; Huang, X.-R.; Xiao, J.; Wang, Y.-Y.; Ka, S.-M.; Tang, Y.-J.; Chung, A.C.K.; To, K.-F.; Nikolic-Paterson, D.J.; Lan, H.-Y. 2016: TGF-β/Smad3 signalling regulates the transition of bone marrow-derived macrophages into myofibroblasts during tissue fibrosis. Oncotarget 7(8): 8809-8822
Chen, J.; Yao, Z.-X.; Chen, J.-S.; Gi, Y.J.; Muñoz, N.M.; Kundra, S.; Herlong, H.F.; Jeong, Y.S.; Goltsov, A.; Ohshiro, K.; Mistry, N.A.; Zhang, J.; Su, X.; Choufani, S.; Mitra, A.; Li, S.; Mishra, B.; White, J.; Rashid, A.; Wang, A.Y.; Javle, M.; Davila, M.; Michaely, P.; Weksberg, R.; Hofstetter, W.L.; Finegold, M.J.; Shay, J.W.; Machida, K.; Tsukamoto, H.; Mishra, L. 2016: TGF-β/β2-spectrin/CTCF-regulated tumor suppression in human stem cell disorder Beckwith-Wiedemann syndrome. Journal of Clinical Investigation 126(2): 527-542
Gu, Y.-Y.; Wang, H.; Wang, S. 2015: TGF-β1 C-509T and T869C polymorphisms and cancer risk: a meta analysis. International Journal of Clinical and Experimental Medicine 8(10): 17932-17940
Fraga, V.G.; Guimarães, H.C.; Lara, V.P.; Teixeira, A.ôn.L.; Barbosa, M.T.; Carvalho, M.G.; Caramelli, P.; Gomes, K.B. 2015: TGF-β1 Codon 10 T>C Polymorphism Influences Short-Term Functional and Cognitive Decline in Healthy Oldest-Old Individuals: the Pietà Study. Journal of Alzheimer's Disease: Jad 48(4): 1077-1081
Yang, A.-T.; Hu, D.-D.; Wang, P.; Cong, M.; Liu, T.-H.; Zhang, D.; Sun, Y.-M.; Zhao, W.-S.; Jia, J.-D.; You, H. 2016: TGF-β1 Induces the Dual Regulation of Hepatic Progenitor Cells with Both Anti- and Proliver Fibrosis. Stem Cells International 2016: 1492694
Scherer, S.D.; Bauer, J.; Schmaus, A.; Neumaier, C.; Herskind, C.; Veldwijk, M.R.; Wenz, F.; Sleeman, J.P. 2016: TGF-β1 Is Present at High Levels in Wound Fluid from Breast Cancer Patients Immediately Post-Surgery, and Is Not Increased by Intraoperative Radiation Therapy (IORT). Plos one 11(9): E0162221
Wang, H.; Li, C.; Jian, Z.; Ou, Y.; Ou, J. 2015: TGF-β1 Reduces miR-29a Expression to Promote Tumorigenicity and Metastasis of Cholangiocarcinoma by Targeting HDAC4. Plos one 10(10): E0136703
Cheng, J.-C.; Chang, H.-M.; Fang, L.; Sun, Y.-P.; Leung, P.C.K. 2015: TGF-β1 Up-Regulates Connective Tissue Growth Factor Expression in Human Granulosa Cells through Smad and ERK1/2 Signaling Pathways. Plos one 10(5): E0126532
Lee, J.; Kim, M.-R.; Kim, H.-J.; An, Y.S.; Yi, J.Y. 2016: TGF-β1 accelerates the DNA damage response in epithelial cells via Smad signaling. Biochemical and Biophysical Research Communications 476(4): 420-425
Ma, Z.-Y.; Zhong, Z.-G.; Qiu, M.-Y.; Zhong, Y.-H.; Zhang, W.-X. 2016: TGF-β1 activates the canonical NF-κB signaling to promote cell survival and proliferation in dystrophic muscle fibroblasts in vitro. Biochemical and Biophysical Research Communications 471(4): 576-581
Liu, F.; Kong, X.; Lv, L.; Gao, J. 2015: TGF-β1 acts through miR-155 to down-regulate TP53INP1 in promoting epithelial-mesenchymal transition and cancer stem cell phenotypes. Cancer Letters 359(2): 288-298
Colombier, P.; Clouet, J.; Boyer, C.éc.; Ruel, M.ëv.; Bonin, G.ël.; Lesoeur, J.; Moreau, A.; Fellah, B.-H.; Weiss, P.; Lescaudron, L.; Camus, A.; Guicheux, J.ér.ôm. 2016: TGF-β1 and GDF5 Act Synergistically to Drive the Differentiation of Human Adipose Stromal Cells toward Nucleus Pulposus-like Cells. Stem Cells 34(3): 653-667
Hsu, H.-J.; Yang, Y.-H.; Shieh, T.-Y.; Chen, C.-H.; Kao, Y.-H.; Yang, C.-F.; Ko, E.C.-C. 2015: TGF-β1 and IL-10 single nucleotide polymorphisms as risk factors for oral cancer in Taiwanese. Kaohsiung Journal of Medical Sciences 31(3): 123-129
Mo, J.W.; Zhang, D.F.; Ji, G.L.; Liu, X.Z.; Fan, B. 2015: TGF-β1 and Serpine 1 expression changes in traumatic deep vein thrombosis. Genetics and Molecular Research: Gmr 14(4): 13835-13842
Dropmann, A.; Dediulia, T.; Breitkopf-Heinlein, K.; Korhonen, H.; Janicot, M.; Weber, S.N.; Thomas, M.; Piiper, A.; Bertran, E.; Fabregat, I.; Abshagen, K.; Hess, J.; Angel, P.; Coulouarn, C.éd.; Dooley, S.; Meindl-Beinker, N.M. 2016: TGF-β1 and TGF-β2 abundance in liver diseases of mice and men. Oncotarget 7(15): 19499-19518
Sun, Y.; Huang, Z.-Y.; Wang, Z.-H.; Li, C.-P.; Meng, X.-L.; Zhang, Y.-J.; Su, F.; Ma, N. 2015: TGF-β1 and TIMP-4 regulate atrial fibrosis in atrial fibrillation secondary to rheumatic heart disease. Molecular and Cellular Biochemistry 406(1-2): 131-138
Yang, H.; Gao, F.; Li, X.; Wang, J.; Liu, H.; Zheng, Z. 2015: TGF-β1 antagonizes TNF-α induced up-regulation of matrix metalloproteinase 3 in nucleus pulposus cells: role of the ERK1/2 pathway. Connective Tissue Research 56(6): 461-468
Kim, J.; Lin, B.; Kim, S.; Choi, B.; Evseenko, D.; Lee, M. 2015: TGF-β1 conjugated chitosan collagen hydrogels induce chondrogenic differentiation of human synovium-derived stem cells. Journal of Biological Engineering 9: 1
Wu, M.; Chen, X.; Lou, J.; Zhang, S.; Zhang, X.; Huang, L.; Sun, R.; Huang, P.; Wang, F.; Pan, S. 2016: TGF-β1 contributes to CD8+ Treg induction through p38 MAPK signaling in ovarian cancer microenvironment. Oncotarget 7(28): 44534-44544
Neveu, W.A.; Mills, S.T.; Staitieh, B.S.; Sueblinvong, V. 2015: TGF-β1 epigenetically modifies Thy-1 expression in primary lung fibroblasts. American Journal of Physiology. Cell Physiology 309(9): C616-C626
Chen, Y.; Ma, L.; He, Q.; Zhang, S.; Zhang, C.; Jia, W. 2015: TGF-β1 expression is associated with invasion and metastasis of intrahepatic cholangiocarcinoma. Biological Research 48: 26
Rathod, S.B.; Tripathy, A.S. 2015: TGF-β1 gene - 509C > T promoter polymorphism modulates TGF-β1 levels in hepatitis e patients. Meta Gene 6: 53-58
Zhang, X.-Y.; Liu, Z.-M.; Zhang, H.-F.; Li, Y.-S.; Wen, S.-H.; Shen, J.-T.; Huang, W.-Q.; Liu, K.-X. 2016: TGF-β1 improves mucosal IgA dysfunction and dysbiosis following intestinal ischaemia-reperfusion in mice. Journal of Cellular and Molecular Medicine 20(6): 1014-1023
Dvashi, Z.; Goldberg, M.; Adir, O.; Shapira, M.; Pollack, A. 2015: TGF-β1 induced transdifferentiation of rpe cells is mediated by TAK1. Plos one 10(4): E0122229
Zu, X.; Zhong, J.; Tan, J.; Tan, L.; Yang, D.; Zhang, Q.; Ding, W.; Liu, W.; Wen, G.; Liu, J.; Cao, R.; Jiang, Y. 2015: TGF-β1 induces HMGA1 expression in human breast cancer cells: implications of the involvement of HMGA1 in TGF-β signaling. International Journal of Molecular Medicine 35(3): 693-701
Wen, W.; Liu, G.; Jin, K.; Hu, X. 2017: TGF-β1 induces PGP9.5 expression in CAFs to promote the growth of colorectal cancer cells. Oncology Reports 37(1): 115-122
Zhang, F.; Ren, T.; Wu, J. 2015: TGF-β1 induces apoptosis of bone marrow-derived mesenchymal stem cells via regulation of mitochondrial reactive oxygen species production. Experimental and Therapeutic Medicine 10(3): 1224-1228
Bu, F.; Liu, X.; Li, J.; Chen, S.; Tong, X.; Ma, C.; Mao, H.; Pan, F.; Li, X.; Chen, B.; Xu, L.; Li, E.; Kou, G.; Han, J.; Guo, S.; Zhao, J.; Guo, Y. 2015: TGF-β1 induces epigenetic silence of TIP30 to promote tumor metastasis in esophageal carcinoma. Oncotarget 6(4): 2120-2133
Shen, H.; Guan, D.; Shen, J.; Wang, M.; Chen, X.; Xu, T.; Liu, L.; Shu, Y. 2016: TGF-β1 induces erlotinib resistance in non-small cell lung cancer by down-regulating PTEN. Biomedicine and PharmacoTherapy 77: 1-6
Zhu, S.-B.; Zhu, J.; Zhou, Z.-Z.; Xi, E.-P.; Wang, R.-P.; Zhang, Y. 2015: TGF-β1 induces human aortic vascular smooth muscle cell phenotype switch through PI3K/AKT/ID2 signaling. American Journal of Translational Research 7(12): 2764-2774
Li, L.; Zhang, X.; Li, X.; Lv, C.; Yu, H.; Xu, M.; Zhang, M.; Fu, Y.; Meng, H.; Zhou, J. 2016: TGF-β1 inhibits the apoptosis of pulmonary arterial smooth muscle cells and contributes to pulmonary vascular medial thickening via the PI3K/Akt pathway. Molecular Medicine Reports 13(3): 2751-2756
Naiki, Y.; Komatsu, T.; Koide, N.; Dagvadorj, J.; Yoshida, T.; Arditi, M.; Yokochi, T. 2015: TGF-β1 inhibits the production of IFN in response to CpG DNA via ubiquitination of TNF receptor-associated factor (TRAF) 6. Innate Immunity 21(7): 770-777
Li, M.; Zhang, P.; Li, H.; Zhu, Y.; Cui, S.; Yao, D. 2015: TGF-β1 is critical for Wallerian degeneration after rat sciatic nerve injury. Neuroscience 284: 759-767
Iqbal, J.; Al-Awadhi, M.A.; Raghupathy, R.G. 2016: TGF-β1 levels and intraocular tissue alterations in mice infected with a virulent type i RH Toxoplasma gondii strain. Experimental Parasitology 162: 57-63
Taylor, R.A.; Chang, C-Feng.; Goods, B.A.; Hammond, M.D.; Mac Grory, B.; Ai, Y.; Steinschneider, A.F.; Renfroe, S.C.; Askenase, M.H.; McCullough, L.D.; Kasner, S.E.; Mullen, M.T.; Hafler, D.A.; Love, J.Christopher.; Sansing, L.H. 2017: TGF-β1 modulates microglial phenotype and promotes recovery after intracerebral hemorrhage. Journal of Clinical Investigation 127(1): 280-292
Hilbish, K.G.; Martin, J.A.; Stauber, A.J.; Edwards, T.L.; Breslin, W.J. 2016: TGF-β1 monoclonal antibody: Assessment of embryo-fetal toxicity in rats and rabbits. Birth Defects Research. Part B Developmental and Reproductive Toxicology 107(4-5): 174-184
Wang, X.-H.; Liu, M.-N.; Sun, X.; Xu, C.-H.; Liu, J.; Chen, J.; Xu, R.-L.; Li, B.-X. 2016: TGF-β1 pathway affects the protein expression of many signaling pathways, markers of liver cancer stem cells, cytokeratins, and TERT in liver cancer HepG2 cells. Tumour Biology: the Journal of the International Society for Oncodevelopmental Biology and Medicine 37(3): 3675-3681
Ma, J.; Liu, Y.C.; Fang, Y.; Cao, Y.; Liu, Z.L. 2015: TGF-β1 polymorphism 509 C>T is associated with an increased risk for hepatocellular carcinoma in HCV-infected patients. Genetics and Molecular Research: Gmr 14(2): 4461-4468
Guo, W.; Liu, Z.; Wei, Z.; Lou, M.; Zhan, Q.; Zhao, Y. 2016: TGF-β1 polymorphism in glioma. Journal of Neurosurgical Sciences 60(3): 401-402
Wan, P.Q.; Wu, J.Z.; Huang, L.Y.; Wu, J.L.; Wei, Y.H.; Ning, Q.Y. 2015: TGF-β1 polymorphisms and familial aggregation of liver cancer in Guangxi, China. Genetics and Molecular Research: Gmr 14(3): 8147-8160
Cai, Y.; Liu, X.; Chen, W.; Wang, Z.; Xu, G.; Zeng, Y.; Ma, Y. 2015: TGF-β1 prevents blood-brain barrier damage and hemorrhagic transformation after thrombolysis in rats. Experimental Neurology 266: 120-126
Fisichella, V.; Giurdanella, G.; Platania, C.Bianca.Maria.; Romano, G.Luca.; Leggio, G.Marco.; Salomone, S.; Drago, F.; Caraci, F.; Bucolo, C. 2016: TGF-β1 prevents rat retinal insult induced by amyloid-β (1-42) oligomers. European Journal of Pharmacology 787: 72-77
Gao, Y.; Wang, Y.; Li, Y.; Xia, X.; Zhao, S.; Che, Y.; Sun, Y.; Lei, L. 2016: TGF-β1 promotes bovine mammary fibroblast proliferation through the ERK 1/2 signalling pathway. Cell Biology International 40(7): 750-760
Stipursky, J.; Francis, D.; Dezonne, R.ôm.S.; Bérgamo de Araújo, A.P.; Souza, L.; Moraes, C.A.; Alcantara Gomes, F.áv.C. 2014: TGF-β1 promotes cerebral cortex radial glia-astrocyte differentiation in vivo. Frontiers in Cellular Neuroscience 8: 393
Zhou, X.; Mao, Y.; Zhu, J.; Meng, F.; Chen, Q.; Tao, L.; Li, R.; Fu, F.; Liu, C.; Hu, Y.; Wang, W.; Zhang, H.; Hua, D.; Chen, W.; Zhang, X. 2016: TGF-β1 promotes colorectal cancer immune escape by elevating B7-H3 and B7-H4 via the miR-155/miR-143 axis. Oncotarget 7(41): 67196-67211
Ezzoukhry, Z.; Henriet, E.; Piquet, L.éo.; Boyé, K.; Bioulac-Sage, P.; Balabaud, C.; Couchy, G.; Zucman-Rossi, J.; Moreau, V.; Saltel, F.éd.ér. 2016: TGF-β1 promotes linear invadosome formation in hepatocellular carcinoma cells, through DDR1 up-regulation and collagen i cross-linking. European Journal of Cell Biology 95(11): 503-512
Li, F.; Li, S.; Cheng, T. 2014: TGF-β1 promotes osteosarcoma cell migration and invasion through the miR-143-versican pathway. Cellular Physiology and Biochemistry: International Journal of Experimental Cellular Physiology Biochemistry and Pharmacology 34(6): 2169-2179
Zhang, N.; Bi, X.; Zeng, Y.; Zhu, Y.; Zhang, Z.; Liu, Y.; Wang, J.; Li, X.; Bi, J.; Kong, C. 2016: TGF-β1 promotes the migration and invasion of bladder carcinoma cells by increasing fascin1 expression. Oncology Reports 36(2): 977-983
Shen, W.-X.; Chen, J.-H.; Lu, J.-H.; Peng, Y.-P.; Qiu, Y.-H. 2014: TGF-β1 protection against Aβ1-42-induced neuroinflammation and neurodegeneration in rats. International Journal of Molecular Sciences 15(12): 22092-22108
Duan, Y.; Chen, Q. 2016: TGF-β1 regulating miR-205/miR-195 expression affects the TGF-β signal pathway by respectively targeting SMAD2/SMAD7. Oncology Reports 36(4): 1837-1844
Wang, J-Zeng.; Fang, X-Tong.; Lv, E.; Yu, F.; Wang, Z-Wei.; Song, H-Xing. 2015: TGF-β1 related inflammation in the posterior longitudinal ligament of cervical spondylotic myelopathy patients. International Journal of Clinical and Experimental Medicine 8(2): 2233-2239
Shen, Z-Tian.; Shen, J-Shu.; Ji, X-Qin.; Li, B.; Zhu, X-Xu. 2016: TGF-β1 rs1982073 polymorphism contributes to radiation pneumonitis in lung cancer patients: a meta-analysis. Journal of Cellular and Molecular Medicine 20(12): 2405-2409
Xiong, S.; Cheng, J.-C.; Klausen, C.; Zhao, J.; Leung, P.C.K. 2016: TGF-β1 stimulates migration of type Ii endometrial cancer cells by down-regulating PTEN via activation of SMAD and ERK1/2 signaling pathways. Oncotarget 7(38): 61262-61272
Luo, D.; Guan, Q.; Wang, K.; Nguan, C.Y.C.; Du, C. 2017: TGF-β1 stimulates movement of renal proximal tubular epithelial cells in a three-dimensional cell culture via an autocrine TGF-β2 production. Experimental Cell Research 350(1): 132-139
Cheng, J.-C.; Chang, H.-M.; Fang, L.; Sun, Y.-P.; Leung, P.C.K. 2015: TGF-β1 up-regulates connexin43 expression: a potential mechanism for human trophoblast cell differentiation. Journal of Cellular Physiology 230(7): 1558-1566
Ostrowska, Z.; Ziora, K.; Oświęcimska, J.; Świętochowska, E.żb.; Marek, B.; Kajdaniuk, D.; Strzelczyk, J.; Gołąbek, K.; Wołkowska-Pokrywa, K.; Kos-Kudła, B. 2016: TGF-β1, bone metabolism, osteoprotegerin, and soluble receptor activator of nuclear factor-kB ligand in girls with anorexia nervosa. Endokrynologia Polska 67(5): 493-500
Nurgazieva, D.; Mickley, A.; Moganti, K.; Ming, W.; Ovsyi, I.; Popova, A.; Sachindra; Awad, K.; Wang, N.; Bieback, K.; Goerdt, S.; Kzhyshkowska, J.; Gratchev, A. 2015: TGF-β1, but not bone morphogenetic proteins, activates Smad1/5 pathway in primary human macrophages and induces expression of proatherogenic genes. Journal of Immunology 194(2): 709-718
Cao, Y-Lin.; Duan, Y.; Zhu, L-Xin.; Zhan, Y-Nan.; Min, S-Xiong.; Jin, A-Min. 2016: TGF-β1, in association with the increased expression of connective tissue growth factor, induce the hypertrophy of the ligamentum flavum through the p38 MAPK pathway. International Journal of Molecular Medicine 38(2): 391-398
Trackman, P.C.; Saxena, D.; Bais, M.V. 2017: TGF-β1- and CCN2-Stimulated Sirius Red Assay for Collagen Accumulation in Cultured Cells. Methods in Molecular Biology 1489: 481-485
Liu, H-Jian.; Zhang, Q-Guang.; Wang, Y-Bo.; Xu, H-Tao.; Zhang, J-Jing. 2015: TGF-β1-509C/T polymorphism and the risk of ESCC in a Chinese Han population. International journal of clinical and experimental medicine 8(7): 11524-11528
Johansson, J.; Tabor, V.; Wikell, A.; Jalkanen, S.; Fuxe, J. 2015: TGF-β1-Induced Epithelial-Mesenchymal Transition Promotes Monocyte/Macrophage Properties in Breast Cancer Cells. Frontiers in Oncology 5: 3
Li, G.; Gao, X.-H.; Mi, Q.-S. 2016: TGF-β1-Smad signaling pathways are not required for epidermal LC homeostasis. Oncotarget 7(13): 15290-15291
Friedrichs, J.; Fink, D.; Mauch, C.; Kindler, D.; Hartmann, W.; Schüle, R.; Buettner, R.; Friedrichs, N. 2015: TGF-β1-dependent induction and nuclear translocation of FHL2 promotes keratin expression in pilomatricoma. Virchows Archiv: An International Journal of Pathology 466(2): 199-208
Huang, W.; Cen, S.; Kang, X.-L.; Wang, W.-F.; Wang, Y.; Chen, X. 2016: TGF-β1-induced Fascin1 promotes cell invasion and metastasis of human 786-0 renal carcinoma cells. Acta Histochemica 118(2): 144-151
Rawson, R.; Yang, T.; Newbury, R.O.; Aquino, M.; Doshi, A.; Bell, B.; Broide, D.H.; Dohil, R.; Kurten, R.; Aceves, S.S. 2016: TGF-β1-induced PAI-1 contributes to a profibrotic network in patients with eosinophilic esophagitis. Journal of Allergy and Clinical Immunology 138(3): 791-800.E4
Lin, Z.; Song, D.; Wei, H.; Yang, X.; Liu, T.; Yan, W.; Xiao, J. 2016: TGF-β1-induced miR-202 mediates drug resistance by inhibiting apoptosis in human osteosarcoma. Journal of Cancer Research and Clinical Oncology 142(1): 239-246
Hadaschik, E.N.; Enk, A.H. 2015: TGF-β1-induced regulatory T cells. Human Immunology 76(8): 561-564
Zhang, X.; Gu, J.; Yu, F.-S.; Zhou, L.; Mi, Q.-S. 2016: TGF-β1-induced transcription factor networks in Langerhans cell development and maintenance. Allergy 71(6): 758-764
Negmadjanov, U.; Godic, Z.; Rizvi, F.; Emelyanova, L.; Ross, G.; Richards, J.; Holmuhamedov, E.L.; Jahangir, A. 2015: TGF-β1-mediated differentiation of fibroblasts is associated with increased mitochondrial content and cellular respiration. Plos one 10(4): E0123046
Zhang, L.; Chen, Y.; Li, G.; Chen, M.; Huang, W.; Liu, Y.; Li, Y. 2016: TGF-β1/FGF-2 signaling mediates the 15-HETE-induced differentiation of adventitial fibroblasts into myofibroblasts. Lipids in Health and Disease 15: 2
Pang, L.; Li, Q.; Wei, C.; Zou, H.; Li, S.; Cao, W.; He, J.; Zhou, Y.; Ju, X.; Lan, J.; Wei, Y.; Wang, C.; Zhao, W.; Hu, J.; Jia, W.; Qi, Y.; Liu, F.; Jiang, J.; Li, L.; Zhao, J.; Liang, W.; Xie, J.; Li, F. 2014: TGF-β1/Smad signaling pathway regulates epithelial-to-mesenchymal transition in esophageal squamous cell carcinoma: in vitro and clinical analyses of cell lines and nomadic Kazakh patients from northwest Xinjiang, China. Plos one 9(12): E112300
Loboda, A.; Sobczak, M.; Jozkowicz, A.; Dulak, J. 2016: TGF-β1/Smads and miR-21 in Renal Fibrosis and Inflammation. Mediators of Inflammation 2016: 8319283
Guo, R.; Meng, Q.; Guo, H.; Xiao, L.; Yang, X.; Cui, Y.; Huang, Y. 2016: TGF-β2 induces epithelial-mesenchymal transition in cultured human lens epithelial cells through activation of the PI3K/Akt/mTOR signaling pathway. Molecular Medicine Reports 13(2): 1105-1110
Das, R.; Timur, U.T.; Edip, S.; Haak, E.; Wruck, C.; Weinans, H.; Jahr, H. 2015: TGF-β2 is involved in the preservation of the chondrocyte phenotype under hypoxic conditions. Annals of Anatomy 198: 1-10
Hirsch, L.; Nazari, H.; Sreekumar, P.G.; Kannan, R.; Dustin, L.; Zhu, D.; Barron, E.; Hinton, D.R. 2015: TGF-β2 secretion from RPE decreases with polarization and becomes apically oriented. Cytokine 71(2): 394-396
Ran, W.; Zhu, D.; Feng, Q. 2015: TGF-β2 stimulates Tenon's capsule fibroblast proliferation in patients with glaucoma via suppression of miR-29b expression regulated by Nrf2. International Journal of Clinical and Experimental Pathology 8(5): 4799-4806
Tao, Y.; Zhou, X.; Liang, C.; Li, H.; Han, B.; Li, F.; Chen, Q. 2015: TGF-β3 and IGF-1 synergy ameliorates nucleus pulposus mesenchymal stem cell differentiation towards the nucleus pulposus cell type through MAPK/ERK signaling. Growth Factors 33(5-6): 326-336
Kim, S.H.; Kim, S.H.; Jung, Y. 2015: TGF-β3 encapsulated PLCL scaffold by a supercritical CO2-HFIP co-solvent system for cartilage tissue engineering. Journal of Controlled Release: Official Journal of the Controlled Release Society 206: 101-107
Kim, S.Hee.; Kim, S.Hyun.; Jung, Y. 2016: TGF-β3 encapsulated PLCL scaffold by supercritical CO2-HFIP co-solvent system for cartilage tissue engineering. Journal of Controlled Release: Official Journal of the Controlled Release Society 213: E100-E101
Zhao, G.; Miao, H.; Li, X.; Chen, S.; Hu, Y.; Wang, Z.; Hou, Y. 2016: TGF-β3-induced miR-494 inhibits macrophage polarization via suppressing PGE2 secretion in mesenchymal stem cells. Febs Letters 590(11): 1602-1613
Río, P.; Bueren, J.A. 2016: TGF-β: a master regulator of the bone marrow failure puzzle in Fanconi anemia. Stem Cell Investigation 3: 75
Sutariya, B.; Jhonsa, D.; Saraf, M.N. 2016: TGF-β: the connecting link between nephropathy and fibrosis. Immunopharmacology and Immunotoxicology 38(1): 39-49
Rathod, S.B.; Tripathy, A.S. 2016: TGF-β1 and contact mediated suppression by CD4+CD25+CD127- T regulatory cells of patients with self-limiting hepatitis e. Human Immunology 77(12): 1254-1263
Au, H.-K.; Chang, J.-H.; Wu, Y.-C.; Kuo, Y.-C.; Chen, Y.-H.; Lee, W.-C.; Chang, T.-S.; Lan, P.-C.; Kuo, H.-C.; Lee, K.-L.; Lee, M.-T.; Tzeng, C.-R.; Huang, Y.-H. 2015: TGF-βi Regulates Cell Migration through Pluripotent Transcription Factor OCT4 in Endometriosis. Plos one 10(12): E0145256
Schwartzkopff, S.; Woyciechowski, S.; Aichele, U.; Flecken, T.; Zhang, N.; Thimme, R.; Pircher, H. 2015: TGF-β downregulates KLRG1 expression in mouse and human CD8(+) T cells. European Journal of Immunology 45(8): 2212-2217
Deepthi, G.; Chaithri, P.K.; Latha, P.; Rani, V.U.; Rahman, P.F.; Jahan, P. 2015: TGFB1 Functional Gene Polymorphisms (C-509T and T869C) in the Maternal Susceptibility to Pre-eclampsia in South Indian Women. Scandinavian Journal of Immunology 82(4): 390-397
Dragicevic, S.; Petrovic-Stanojevic, N.; Nikolic, A. 2016: TGFB1 Gene Promoter Polymorphisms in Serbian Asthmatics. Advances in Clinical and Experimental Medicine: Official Organ Wroclaw Medical University 25(2): 273-278
Ozawa, D.; Yokobori, T.; Sohda, M.; Sakai, M.; Hara, K.; Honjo, H.; Kato, H.; Miyazaki, T.; Kuwano, H. 2016: TGFBi Expression in Cancer Stromal Cells is Associated with Poor Prognosis and Hematogenous Recurrence in Esophageal Squamous Cell Carcinoma. Annals of Surgical Oncology 23(1): 282-289
Cai, J.; Zhu, L.; Zha, Y.; Kang, Q. 2016: TGFBi Gene Mutation Analysis in Chinese Families with Corneal Dystrophies. Genetic Testing and Molecular Biomarkers 20(7): 388-392
Zhu, J.; Chen, X.; Liao, Z.; He, C.; Hu, X. 2015: TGFBi protein high expression predicts poor prognosis in colorectal cancer patients. International Journal of Clinical and Experimental Pathology 8(1): 702-710
Maeng, Y-Sun.; Choi, Y.Jeong.; Kim, E.Kweon. 2015: TGFBIp regulates differentiation of EPC (CD133(+) C-kit(+) Lin(-) cells) to EC through activation of the Notch signaling pathway. Stem Cells 33(6): 2052-2062
Kamali, E.; Hemmati, S.; Safari, F.; Tavassoli, M. 2015: TGFBR1 polymorphism and risk of breast cancer in Iranian women. International Journal of Biological Markers 30(4): E414-E417
Castillejo, A.; Mata-Balaguer, T.; Sanchez, T.; Montenegro, P.C.; Barberá, V.M.; Ochoa, E.; Lázaro, R.; Guillén, C.; Carrato, A.; Soto, J. 2016: TGFBR1*6A is not a susceptibility allele for colorectal cancer in a Spanish population. Journal of Clinical Oncology 26(15_Suppl): 22202-22202
Pasche, B.; Knobloch, T.; Bian, Y.; Liu, J.; Kaklamani, V.; Baddi, L.; Rosman, D.; de la Chapelle, A.; Weghorst, C. 2016: TGFBR1*6A is somatically acquired at high frequency in cancer and switches TGF-β responses. Journal of Clinical Oncology 23(16_Suppl): 9511-9511
Ruiz-Franco, Aélica.; Barboza, M.A.; Jara-Prado, A.; Canizales-Quinteros, S.; Leon-Mimila, P.; Arguelles-Morales, N.; Vargas-González, J-Camilo.; Quiroz-Compean, A.; Arauz, A. 2016: TGFBR2 mutation and MTHFR-C677T polymorphism in a Mexican mestizo population with cervico-cerebral artery dissection. Journal of Neurology 263(6): 1066-1073
Zreik, R.T.; Carter, J.M.; Sukov, W.R.; Ahrens, W.A.; Fritchie, K.J.; Montgomery, E.A.; Weiss, S.W.; Folpe, A.L. 2016: TGFBR3 and MGEA5 rearrangements are much more common in "hybrid" hemosiderotic fibrolipomatous tumor-myxoinflammatory fibroblastic sarcomas than in classical myxoinflammatory fibroblastic sarcomas: a morphological and fluorescence in situ hybridization study. Human Pathology 53: 14-24
Sharifi, N.; Hurt, E.; Farrar, W.L. 2016: TGFBR3 is lost in prostate cancer, contributing to malignant transformation. Journal of Clinical Oncology 24(18_Suppl): 14552-14552
Tampellini, M.; Longo, M.; Cappia, S.; Bacillo, E.; Brizzi, M.; Bitossi, R.; Sculli, C.M.; Alabiso, I.; Dogliotti, L.; Papotti, M. 2016: TGFalfa, EGFR and p70S6K expression in aggressive colorectal cancer (CRC). Journal of Clinical Oncology 24(18_Suppl): 13505-13505
De Santis Puzzonia, M.; Cozzolino, A.M.; Grassi, G.; Bisceglia, F.; Strippoli, R.; Guarguaglini, G.; Citarella, F.; Sacchetti, B.; Tripodi, M.; Marchetti, A.; Amicone, L. 2016: TGFbeta Induces Binucleation/Polyploidization in Hepatocytes through a Src-Dependent Cytokinesis Failure. Plos one 11(11): E0167158
Cantelli, G.; Crosas-Molist, E.; Georgouli, M.; Sanz-Moreno, V. 2017: TGFΒ-induced transcription in cancer. Seminars in Cancer Biology 42: 60-69
Kavanagh, S.; Mirzai, B.; Fuller, K.; Erber, W.N. 2016: TGFα expression in myeloid malignancies. Journal of Clinical Pathology 69(6): 543-546
Yanguas-Casás, N.; Barreda-Manso, M.Asunción.; Pérez-Rial, S.; Nieto-Sampedro, M.; Romero-Ramírez, L. 2017: TGFβ Contributes to the Anti-inflammatory Effects of Tauroursodeoxycholic Acid on an Animal Model of Acute Neuroinflammation. Molecular Neurobiology 54(9): 6737-6749
Cleveland, R.H.; Sawicki, G.S.; Stamoulis, C. 2015: Similar performance of Brasfield and Wisconsin scoring systems in young children with cystic fibrosis. Pediatric Radiology 45(11): 1624-1628
Czubala, M.A.; Finsterbusch, K.; Ivory, M.O.; Mitchell, J.P.; Ahmed, Z.; Shimauchi, T.; Karoo, R.O.S.; Coulman, S.A.; Gateley, C.; Birchall, J.C.; Blanchet, F.P.; Piguet, V. 2016: TGFβ Induces a SAMHD1-Independent Post-Entry Restriction to HIV-1 Infection of Human Epithelial Langerhans Cells. Journal of Investigative Dermatology 136(10): 1981-1989
Vanpouille-Box, C.; Diamond, J.M.; Pilones, K.A.; Zavadil, J.; Babb, J.S.; Formenti, S.C.; Barcellos-Hoff, M.H.; Demaria, S. 2015: TGFβ Is a Master Regulator of Radiation Therapy-Induced Antitumor Immunity. Cancer Research 75(11): 2232-2242
Toren-Haritan, G.; Efrat, S. 2015: TGFβ Pathway Inhibition Redifferentiates Human Pancreatic Islet β Cells Expanded in Vitro. Plos one 10(9): E0139168
Boutet, M.; Gauthier, L.; Leclerc, M.; Gros, G.; de Montpreville, V.; Théret, N.; Donnadieu, E.; Mami-Chouaib, F. 2016: TGFβ Signaling Intersects with CD103 Integrin Signaling to Promote T-Lymphocyte Accumulation and Antitumor Activity in the Lung Tumor Microenvironment. Cancer Research 76(7): 1757-1769
Papageorgis, P. 2015: TGFβ Signaling in Tumor Initiation, Epithelial-to-Mesenchymal Transition, and Metastasis. Journal of Oncology 2015: 587193
Principe, D.R.; DeCant, B.; Mascariñas, E.; Wayne, E.A.; Diaz, A.M.; Akagi, N.; Hwang, R.; Pasche, B.; Dawson, D.W.; Fang, D.; Bentrem, D.J.; Munshi, H.G.; Jung, B.; Grippo, P.J. 2016: TGFβ Signaling in the Pancreatic Tumor Microenvironment Promotes Fibrosis and Immune Evasion to Facilitate Tumorigenesis. Cancer Research 76(9): 2525-2539
Kim, S.; Kang, H. 2013: TGFβ Signaling-mediated MicroRNA Regulation in Vascular Smooth Muscle Cells. Journal of Lifestyle Medicine 3(2): 80-84
Pan, C.; Singh, S.; Sahasrabudhe, D.M.; Chakkalakal, J.V.; Krolewski, J.J.; Nastiuk, K.L. 2016: TGFβ Superfamily Members Mediate Androgen Deprivation Therapy-Induced Obese Frailty in Male Mice. Endocrinology 157(11): 4461-4472
Han, J.; Chen, X.; Chu, J.; Xu, B.; Meisen, W.H.; Chen, L.; Zhang, L.; Zhang, J.; He, X.; Wang, Q-En.; Chiocca, E.Antonio.; Kaur, B.; Caligiuri, M.A.; Yu, J. 2015: TGFβ Treatment Enhances Glioblastoma Virotherapy by Inhibiting the Innate Immune Response. Cancer Research 75(24): 5273-5282
Climent, M.; Quintavalle, M.; Miragoli, M.; Chen, J.; Condorelli, G.; Elia, L. 2015: TGFβ Triggers miR-143/145 Transfer From Smooth Muscle Cells to Endothelial Cells, Thereby Modulating Vessel Stabilization. Circulation Research 116(11): 1753-1764
Zieba, J.; Forlenza, K.N.; Khatra, J.S.; Sarukhanov, A.; Duran, I.; Rigueur, D.; Lyons, K.M.; Cohn, D.H.; Merrill, A.E.; Krakow, D. 2016: TGFβ and BMP Dependent Cell Fate Changes Due to Loss of Filamin B Produces Disc Degeneration and Progressive Vertebral Fusions. Plos Genetics 12(3): E1005936
Havis, E.; Bonnin, M.-A.; Esteves de Lima, J.; Charvet, B.; Milet, C.éc.; Duprez, D. 2016: TGFβ and FGF promote tendon progenitor fate and act downstream of muscle contraction to regulate tendon differentiation during chick limb development. Development 143(20): 3839-3851
Watarai, A.; Schirmer, L.; Thönes, S.; Freudenberg, U.; Werner, C.; Simon, J.C.; Anderegg, U. 2015: TGFβ functionalized starPEG-heparin hydrogels modulate human dermal fibroblast growth and differentiation. Acta Biomaterialia 25: 65-75
Baquero, P.; Jiménez-Mora, E.; Santos, A.án.; Lasa, M.; Chiloeches, A. 2016: TGFβ induces epithelial-mesenchymal transition of thyroid cancer cells by both the BRAF/MEK/ERK and Src/FAK pathways. Molecular Carcinogenesis 55(11): 1639-1654
Chen, C.; Zhao, K.-N.; Masci, P.P.; Lakhani, S.R.; Antonsson, A.; Simpson, P.T.; Vitetta, L. 2015: TGFβ isoforms and receptors mRNA expression in breast tumours: prognostic value and clinical implications. Bmc Cancer 15: 1010
Ye, Y.; Liu, S.; Wu, C.; Sun, Z. 2015: TGFβ modulates inflammatory cytokines and growth factors to create premetastatic microenvironment and stimulate lung metastasis. Journal of Molecular Histology 46(4-5): 365-375
Tian, Y.; Yuan, W.; Li, J.; Wang, H.; Hunt, M.G.; Liu, C.; Shapiro, I.M.; Risbud, M.V. 2016: TGFβ regulates Galectin-3 expression through canonical Smad3 signaling pathway in nucleus pulposus cells: implications in intervertebral disc degeneration. Matrix Biology: Journal of the International Society for Matrix Biology 50: 39-52
Parsa, R.; Lund, H.; Tosevski, I.; Zhang, X.-M.; Malipiero, U.; Beckervordersandforth, J.; Merkler, D.; Prinz, M.; Gyllenberg, A.; James, T.; Warnecke, A.; Hillert, J.; Alfredsson, L.; Kockum, I.; Olsson, T.; Fontana, A.; Suter, T.; Harris, R.A. 2016: TGFβ regulates persistent neuroinflammation by controlling Th1 polarization and ROS production via monocyte-derived dendritic cells. Glia 64(11): 1925-1937
Ungerleider, N.; Han, C.; Zhang, J.; Yao, L.; Wu, T. 2017: TGFβ signaling confers sorafenib resistance via induction of multiple RTKs in hepatocellular carcinoma cells. Molecular Carcinogenesis 56(4): 1302-1311
Fessler, E.; Drost, J.; van Hooff, S.R.; Linnekamp, J.F.; Wang, X.; Jansen, M.; De Sousa E Melo, F.; Prasetyanti, P.R.; IJspeert, J.Eg.; Franitza, M.; Nürnberg, P.; van Noesel, C.Jm.; Dekker, E.; Vermeulen, L.; Clevers, H.; Medema, J.Paul. 2016: TGFβ signaling directs serrated adenomas to the mesenchymal colorectal cancer subtype. Embo Molecular Medicine 8(7): 745-760
Shaw, A.K.; Pickup, M.W.; Chytil, A.; Aakre, M.; Owens, P.; Moses, H.L.; Novitskiy, S.V. 2015: TGFβ signaling in myeloid cells regulates mammary carcinoma cell invasion through fibroblast interactions. Plos one 10(1): E0117908
Peters, S.B.; Nelson, D.A.; Kwon, H.R.; Koslow, M.; DeSantis, K.A.; Larsen, M. 2015: TGFβ signaling promotes matrix assembly during mechanosensitive embryonic salivary gland restoration. Matrix Biology: Journal of the International Society for Matrix Biology 43: 109-124
Rafehi, S.; Ramos Valdes, Y.; Bertrand, M.; McGee, J.; Préfontaine, M.; Sugimoto, A.; DiMattia, G.E.; Shepherd, T.G. 2016: TGFβ signaling regulates epithelial-mesenchymal plasticity in ovarian cancer ascites-derived spheroids. Endocrine-Related Cancer 23(3): 147-159
Kopanja, D.; Raychaudhuri, P. 2016: TGFβ signaling: a friend or a foe to hepatic fibrosis and tumorigenesis. Annals of Translational Medicine 4(6): 122
Lin, S.; Xie, J.; Gong, T.; Shi, S.; Zhang, T.; Fu, N.; Ye, L.; Wang, M.; Lin, Y. 2015: TGFβ signalling pathway regulates angiogenesis by endothelial cells, in an adipose-derived stromal cell/endothelial cell co-culture 3D gel model. Cell Proliferation 48(6): 729-737
Smoktunowicz, N.; Platé, M.; Stern, A.O.; D'Antongiovanni, V.; Robinson, E.; Chudasama, V.; Caddick, S.; Scotton, C.J.; Jarai, G.; Chambers, R.C. 2016: TGFβ upregulates PAR-1 expression and signalling responses in A549 lung adenocarcinoma cells. Oncotarget 7(40): 65471-65484
Ren, Y.; Yin, Z.; Li, K.; Wan, Y.; Li, X.; Wu, W.; Guan, P.; Zhou, B. 2015: TGFβ-1 and TGFBR2 polymorphisms, cooking oil fume exposure and risk of lung adenocarcinoma in Chinese nonsmoking females: a case control study. Bmc Medical Genetics 16: 22
Takeyama, K.; Chatani, M.; Inohaya, K.; Kudo, A. 2016: TGFβ-2 signaling is essential for osteoblast migration and differentiation during fracture healing in medaka fish. Bone 86: 68-78
Casalena, G.; Bottinger, E.; Daehn, I. 2015: TGFβ-Induced Actin Cytoskeleton Rearrangement in Podocytes Is Associated with Compensatory Adaptation of Mitochondrial Energy Metabolism. Nephron 131(4): 278-284
Ghosh, D.; Ulasov, I.V.; Chen, L.; Harkins, L.E.; Wallenborg, K.; Hothi, P.; Rostad, S.; Hood, L.; Cobbs, C.S. 2016: TGFβ-Responsive HMOX1 Expression Is Associated with Stemness and Invasion in Glioblastoma Multiforme. Stem Cells 34(9): 2276-2289
Zhang, D.; Yan, H.; Li, H.; Hao, S.; Zhuang, Z.; Liu, M.; Sun, Q.; Yang, Y.; Zhou, M.; Li, K.; Hang, C. 2015: TGFβ-activated Kinase 1 (TAK1) Inhibition by 5Z-7-Oxozeaenol Attenuates Early Brain Injury after Experimental Subarachnoid Hemorrhage. Journal of Biological Chemistry 290(32): 19900-19909
Baas, M.; Besançon, A.; Goncalves, T.; Valette, F.; Yagita, H.; Sawitzki, B.; Volk, H.-D.; Waeckel-Enée, E.; Rocha, B.; Chatenoud, L.; You, S. 2016: TGFβ-dependent expression of PD-1 and PD-L1 controls CD8(+) T cell anergy in transplant tolerance. Elife 5: E08133
Thakur, N.; Gudey, S.K.; Marcusson, A.; Fu, J.Y.; Bergh, A.; Heldin, C.-H.; Landström, M. 2014: TGFβ-induced invasion of prostate cancer cells is promoted by c-Jun-dependent transcriptional activation of Snail1. Cell Cycle 13(15): 2400-2414
van Zoelen, E.J.; Duarte, I.; Hendriks, Jé.M.; van der Woning, S.P. 2016: TGFβ-induced switch from adipogenic to osteogenic differentiation of human mesenchymal stem cells: identification of drug targets for prevention of fat cell differentiation. Stem Cell Research and Therapy 7(1): 123
Park, J.-Y.; Kim, M.; Park, T.J.; Kang, H.Y. 2016: TGFβ1 derived from endothelial cells inhibits melanogenesis. Pigment Cell and Melanoma Research 29(4): 477-480
Sepanjnia, A.; Eskandari-Nasab, E.; Moghadampour, M.; Tahmasebi, A.; Dahmardeh, F. 2015: TGFβ1 genetic variants are associated with an increased risk of acute brucellosis. Infectious Diseases 47(7): 458-464
Zhou, X.; Zöller, T.; Krieglstein, K.; Spittau, B.ör. 2015: TGFβ1 inhibits IFNγ-mediated microglia activation and protects mDA neurons from IFNγ-driven neurotoxicity. Journal of Neurochemistry 134(1): 125-134
Glazer, E.S.; Welsh, E.; Pimiento, J.M.; Teer, J.K.; Malafa, M.P. 2017: TGFβ1 overexpression is associated with improved survival and low tumor cell proliferation in patients with early-stage pancreatic ductal adenocarcinoma. Oncotarget 8(1): 999-1006
Zhang, H.; Forman, H.J. 2014: TGFβ1 rapidly activates Src through a non-canonical redox mechanism. Free Radical Biology and Medicine 75(Suppl 1): S4
Zhang, H.; Davies, K.J.A.; Forman, H.J. 2015: TGFβ1 rapidly activates Src through a non-canonical redox signaling mechanism. Archives of Biochemistry and Biophysics 568: 1-7
Zeglinski, M.R.; Roche, P.; Hnatowich, M.; Jassal, D.S.; Wigle, J.T.; Czubryt, M.P.; Dixon, I.M.C. 2016: TGFβ1 regulates Scleraxis expression in primary cardiac myofibroblasts by a Smad-independent mechanism. American Journal of Physiology. Heart and Circulatory Physiology 310(2): H239-H249
Park, B.V.; Freeman, Z.T.; Ghasemzadeh, A.; Chattergoon, M.A.; Rutebemberwa, A.; Steigner, J.; Winter, M.E.; Huynh, T.V.; Sebald, S.M.; Lee, S.-J.; Pan, F.; Pardoll, D.M.; Cox, A.L. 2016: TGFβ1-Mediated SMAD3 Enhances PD-1 Expression on Antigen-Specific T Cells in Cancer. Cancer Discovery 6(12): 1366-1381
Zhang, T.; Liang, L.; Liu, X.; Wu, J.-N.; Chen, J.; Su, K.; Zheng, Q.; Huang, H.; Liao, G.-Q. 2016: TGFβ1-Smad3-Jagged1-Notch1-Slug signaling pathway takes part in tumorigenesis and progress of tongue squamous cell carcinoma. Journal of Oral Pathology and Medicine: Official Publication of the International Association of Oral Pathologists and the American Academy of Oral Pathology 45(7): 486-493
Xing, C.; Gong, B.; Xue, Y.; Han, Y.; Wang, Y.; Meng, A.; Jia, S. 2015: TGFβ1a regulates zebrafish posterior lateral line formation via Smad5 mediated pathway. Journal of Molecular Cell Biology 7(1): 48-61
Ardila, D.C.; Tamimi, E.; Danford, F.L.; Haskett, D.G.; Kellar, R.S.; Doetschman, T.; Vande Geest, J.P. 2015: TGFβ2 differentially modulates smooth muscle cell proliferation and migration in electrospun gelatin-fibrinogen constructs. Biomaterials 37: 164-173
Martínez-Armenta, M.; Díaz de León-Guerrero, S.; Catalán, A.; Alvarez-Arellano, L.; Uribe, R.M.; Subramaniam, M.; Charli, J.-L.; Pérez-Martínez, L. 2015: TGFβ2 regulates hypothalamic Trh expression through the TGFβ inducible early gene-1 (TIEG1) during fetal development. Molecular and Cellular Endocrinology 400: 129-139
Somoza, R.A.; Acevedo, C.A.; Albornoz, F.; Luz-Crawford, P.; Carrión, F.; Young, M.E.; Weinstein-Oppenheimer, C. 2017: TGFβ3 secretion by three-dimensional cultures of human dental apical papilla mesenchymal stem cells. Journal of Tissue Engineering and Regenerative Medicine 11(4): 1045-1056
Tran, H.C.; Wan, Z.; Sheard, M.A.; Sun, J.; Jackson, J.R.; Malvar, J.; Xu, Y.; Wang, L.; Sposto, R.; Kim, E.S.; Asgharzadeh, S.; Seeger, R.C. 2017: TGFβR1 Blockade with Galunisertib (LY2157299) Enhances Anti-Neuroblastoma Activity of the Anti-GD2 Antibody Dinutuximab (ch14.18) with Natural Killer Cells. Clinical Cancer Research: An Official Journal of the American Association for Cancer Research 23(3): 804-813
Duncan, D.R.; Chen, P.-Y.; Patterson, J.T.; Lee, Y.-U.; Hibino, N.; Cleary, M.; Naito, Y.; Yi, T.; Gilliland, T.; Kurobe, H.; Church, S.N.; Shinoka, T.; Fahmy, T.M.; Simons, M.; Breuer, C.K. 2015: TGFβR1 inhibition blocks the formation of stenosis in tissue-engineered vascular grafts. Journal of the American College of Cardiology 65(5): 512-514
Razzaque, M.S.; Atfi, A. 2016: TGIF function in oncogenic Wnt signaling. Biochimica et Biophysica Acta 1865(2): 101-104
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Chen, L.; Jiang, C.; Tiwari, S.R.; Shrestha, A.; Xu, P.; Liang, W.; Sun, Y.; He, S.; Cheng, B. 2015: TGIF1 Gene Silencing in Tendon-Derived Stem Cells Improves the Tendon-to-Bone Insertion Site Regeneration. Cellular Physiology and Biochemistry: International Journal of Experimental Cellular Physiology Biochemistry and Pharmacology 37(6): 2101-2114
Xiang, G.; Yi, Y.; Weiwei, H.; Weiming, W. 2015: TGIF1 promoted the growth and migration of cancer cells in nonsmall cell lung cancer. Tumour Biology: the Journal of the International Society for Oncodevelopmental Biology and Medicine 36(12): 9303-9310
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Van Meel, E.; Klumperman, J. 2014: TGN exit of the cation-independent mannose 6-phosphate receptor does not require acid hydrolase binding. Cellular Logistics 4(3): E954441
Weißmüller, S.; Kronhart, S.; Kreuz, D.; Schnierle, B.; Kalinke, U.; Kirberg, J.ör.; Hanschmann, K.-M.; Waibler, Z. 2016: TGN1412 Induces Lymphopenia and Human Cytokine Release in a Humanized Mouse Model. Plos one 11(3): E0149093
Chen, L.; Ge, Z-Jia.; Wang, Z-Bo.; Sun, T.; Ouyang, Y-Chun.; Sun, Q-Yuan.; Sun, Y-Pu. 2014: TGN38 is required for the metaphase I/anaphase I transition and asymmetric cell division during mouse oocyte meiotic maturation. Cell Cycle 13(17): 2723-2732
Yang, Z.; Xiong, F.; Wang, Y.; Gong, W.; Huang, J.; Chen, C.; Liu, P.; Huang, H. 2016: TGR5 activation suppressed S1P/S1P2 signaling and resisted high glucose-induced fibrosis in glomerular mesangial cells. Pharmacological Research 111: 226-236
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Masyuk, T.V.; Masyuk, A.I.; LaRusso, N.F. 2015: TGR5 in the Cholangiociliopathies. Digestive Diseases 33(3): 420-425
Reich, M.; Deutschmann, K.; Sommerfeld, A.; Klindt, C.; Kluge, S.; Kubitz, R.; Ullmer, C.; Knoefel, W.T.; Herebian, D.; Mayatepek, E.; Häussinger, D.; Keitel, V. 2016: TGR5 is essential for bile acid-dependent cholangiocyte proliferation in vivo and in vitro. Gut 65(3): 487-501
McMillin, M.; Frampton, G.; Tobin, R.; Dusio, G.; Smith, J.; Shin, H.; Newell-Rogers, K.; Grant, S.; DeMorrow, S. 2015: TGR5 signaling reduces neuroinflammation during hepatic encephalopathy. Journal of Neurochemistry 135(3): 565-576
Xiong, F.; Li, X.; Yang, Z.; Wang, Y.; Gong, W.; Huang, J.; Chen, C.; Liu, P.; Huang, H. 2016: TGR5 suppresses high glucose-induced upregulation of fibronectin and transforming growth factor-β1 in rat glomerular mesangial cells by inhibiting RhoA/ROCK signaling. Endocrine 54(3): 657-670
Eiselein, L.; Nyunt, T.; Lamé, M.W.; Ng, K.F.; Wilson, D.W.; Rutledge, J.C.; Aung, H.H. 2015: TGRL Lipolysis Products Induce Stress Protein ATF3 via the TGF-β Receptor Pathway in Human Aortic Endothelial Cells. Plos one 10(12): E0145523
Sekizuka, T.; Yamashita, A.; Murase, Y.; Iwamoto, T.; Mitarai, S.; Kato, S.; Kuroda, M. 2015: TGS-TB: Total Genotyping Solution for Mycobacterium tuberculosis Using Short-Read Whole-Genome Sequencing. Plos one 10(11): E0142951
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Khosravi-Maharlooei, M.; Hajizadeh-Saffar, E.; Tahamtani, Y.; Basiri, M.; Montazeri, L.; Khalooghi, K.; Kazemi Ashtiani, M.; Farrokhi, A.; Aghdami, N.; Sadr Hashemi Nejad, A.; Larijani, M.-B.; De Leu, N.; Heimberg, H.; Luo, X.; Baharvand, H. 2015: THERAPY OF ENDOCRINE DISEASE: Islet transplantation for type 1 diabetes: so close and yet so far away. European Journal of Endocrinology 173(5): R165-R183
Tampourlou, M.; Trifanescu, R.; Paluzzi, A.; Ahmed, S.K.; Karavitaki, N. 2016: THERAPY OF ENDOCRINE DISEASE: Surgery in microprolactinomas: effectiveness and risks based on contemporary literature. European Journal of Endocrinology 175(3): R89-R96
Corona, G.; Giagulli, V.A.; Maseroli, E.; Vignozzi, L.; Aversa, A.; Zitzmann, M.; Saad, F.; Mannucci, E.; Maggi, M. 2016: THERAPY OF ENDOCRINE DISEASE: Testosterone supplementation and body composition: results from a meta-analysis study. European Journal of Endocrinology 174(3): R99-116
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Subramaniam, M.; Pitel, K.S.; Withers, S.G.; Drissi, H.; Hawse, J.R. 2016: TIEG1 enhances Osterix expression and mediates its induction by TGFβ and BMP2 in osteoblasts. Biochemical and Biophysical Research Communications 470(3): 528-533
Djalali, A.; Della Corte, F.; Segond, F.; Metzger, M.-H.; Gabilly, L.; Grieger, F.; Larrucea, X.; Violi, C.; Lopez, C.éd.; Arnod-Prin, P.; Ingrassia, P.L. 2017: TIER competency-based training course for the first receivers of CBRN casualties: a European perspective. European Journal of Emergency Medicine: Official Journal of the European Society for Emergency Medicine 24(5): 371-376
Saudemont, A. 2015: TIF-IA and Ebp1 regulate RNA synthesis in T cells. Blood 125(16): 2456-2457
Jin, R.; Zhou, W. 2016: TIF-IA: An oncogenic target of pre-ribosomal RNA synthesis. Biochimica et Biophysica Acta 1866(2): 189-196
Pommier, R.M.; Gout, J.; Vincent, D.F.; Alcaraz, L.B.; Chuvin, N.; Arfi, V.; Martel, S.; Kaniewski, B.; Devailly, G.; Fourel, Gève.; Bernard, P.; Moyret-Lalle, C.; Ansieau, Séphane.; Puisieux, A.; Valcourt, U.; Sentis, Séphanie.; Bartholin, L. 2015: TIF1γ Suppresses Tumor Progression by Regulating Mitotic Checkpoints and Chromosomal Stability. Cancer Research 75(20): 4335-4350
Kassem, L.; Deygas, M.; Fattet, L.; Lopez, J.; Goulvent, T.; Lavergne, E.; Chabaud, S.; Carrabin, N.; Chopin, N.; Bachelot, T.; Gillet, G.; Treilleux, I.; Rimokh, R. 2015: TIF1γ interferes with TGFβ1/SMAD4 signaling to promote poor outcome in operable breast cancer patients. Bmc Cancer 15: 453
Ko, Y-Hui.; Domingo-Vidal, M.; Roche, M.; Lin, Z.; Whitaker-Menezes, D.; Seifert, E.; Capparelli, C.; Tuluc, M.; Birbe, R.C.; Tassone, P.; Curry, J.M.; Navarro-Sabaté, Àurea.; Manzano, A.; Bartrons, R.; Caro, J.; Martinez-Outschoorn, U. 2016: TP53-inducible Glycolysis and Apoptosis Regulator (TIGAR) Metabolically Reprograms Carcinoma and Stromal Cells in Breast Cancer. Journal of Biological Chemistry 291(51): 26291-26303
Qian, S.; Li, J.; Hong, M.; Zhu, Y.; Zhao, H.; Xie, Y.; Huang, J.; Lian, Y.; Li, Y.; Wang, S.; Mao, J.; Chen, Y. 2016: TIGAR cooperated with glycolysis to inhibit the apoptosis of leukemia cells and associated with poor prognosis in patients with cytogenetically normal acute myeloid leukemia. Journal of Hematology and Oncology 9(1): 128
Tai, G.; Zhang, H.; Du, J.; Chen, G.; Huang, J.; Yu, J.; Cai, J.; Liu, F. 2015: TIGAR overexpression diminishes radiosensitivity of parotid gland fibroblast cells and inhibits IR-induced cell autophagy. International Journal of Clinical and Experimental Pathology 8(5): 4823-4829
Kim, J.; Devalaraja-Narashimha, K.; Padanilam, B.J. 2015: TIGAR regulates glycolysis in ischemic kidney proximal tubules. American Journal of Physiology. Renal Physiology 308(4): F298-F308
Nariai, N.; Kojima, K.; Mimori, T.; Sato, Y.; Kawai, Y.; Yamaguchi-Kabata, Y.; Nagasaki, M. 2014: TIGAR2: sensitive and accurate estimation of transcript isoform expression with longer RNA-Seq reads. Bmc Genomics 15(Suppl 10): S5
Li, X.; Snyder, J.A.; Stuart, S.J.; Latour, R.A. 2015: TIGER2 with solvent energy averaging (TIGER2A): An accelerated sampling method for large molecular systems with explicit representation of solvent. Journal of Chemical Physics 143(14): 144105
Kourepini, E.; Paschalidis, N.; Simoes, D.C.M.; Aggelakopoulou, M.; Grogan, J.L.; Panoutsakopoulou, V. 2016: TIGIT Enhances Antigen-Specific Th2 Recall Responses and Allergic Disease. Journal of Immunology 196(9): 3570-3580
Chew, G.M.; Fujita, T.; Webb, G.M.; Burwitz, B.J.; Wu, H.L.; Reed, J.S.; Hammond, K.B.; Clayton, K.L.; Ishii, N.; Abdel-Mohsen, M.; Liegler, T.; Mitchell, B.I.; Hecht, F.M.; Ostrowski, M.; Shikuma, C.M.; Hansen, S.G.; Maurer, M.; Korman, A.J.; Deeks, S.G.; Sacha, J.B.; Ndhlovu, L.C. 2016: TIGIT Marks Exhausted T Cells, Correlates with Disease Progression, and Serves as a Target for Immune Restoration in HIV and SIV Infection. Plos Pathogens 12(1): E1005349
Pauken, K.E.; Wherry, E.J. 2014: TIGIT and CD226: tipping the balance between costimulatory and coinhibitory molecules to augment the cancer immunotherapy toolkit. Cancer Cell 26(6): 785-787
Jariwala, N.; Benoit, B.; Kossenkov, A.V.; Oetjen, L.K.; Whelan, T.M.; Cornejo, C.M.; Takeshita, J.; Kim, B.S.; Showe, L.C.; Wysocka, M.; Rook, A.H. 2017: TIGIT and Helios Are Highly Expressed on CD4+ T Cells in Sézary Syndrome Patients. Journal of Investigative Dermatology 137(1): 257-260
Chauvin, J.-M.; Pagliano, O.; Fourcade, J.; Sun, Z.; Wang, H.; Sander, C.; Kirkwood, J.M.; Chen, T.-h.T.; Maurer, M.; Korman, A.J.; Zarour, H.M. 2015: TIGIT and PD-1 impair tumor antigen-specific CD8⁺ T cells in melanoma patients. Journal of Clinical Investigation 125(5): 2046-2058
Wang, F.; Hou, H.; Wu, S.; Tang, Q.; Liu, W.; Huang, M.; Yin, B.; Huang, J.; Mao, L.; Lu, Y.; Sun, Z. 2015: TIGIT expression levels on human NK cells correlate with functional heterogeneity among healthy individuals. European Journal of Immunology 45(10): 2886-2897
Chen, X.; Lu, P.-H.; Liu, L.; Fang, Z.-M.; Duan, W.; Liu, Z.-L.; Wang, C.-Y.; Zhou, P.; Yu, X.-F.; He, W.-T. 2016: TIGIT negatively regulates inflammation by altering macrophage phenotype. Immunobiology 221(1): 48-55
Zhao, W.; Dong, Y.; Wu, C.; Ma, Y.; Jin, Y.; Ji, Y. 2016: TIGIT overexpression diminishes the function of CD4 T cells and ameliorates the severity of rheumatoid arthritis in mouse models. Experimental Cell Research 340(1): 132-138
Kurtulus, S.; Sakuishi, K.; Ngiow, S.-F.; Joller, N.; Tan, D.J.; Teng, M.W.L.; Smyth, M.J.; Kuchroo, V.K.; Anderson, A.C. 2015: TIGIT predominantly regulates the immune response via regulatory T cells. Journal of Clinical Investigation 125(11): 4053-4062
Liu, X-Guang.; Hou, M.; Liu, Y. 2017: TIGIT, A Novel Therapeutic Target for Tumor Immunotherapy. Immunological Investigations 46(2): 172-182
Mahnke, K.; Enk, A.H. 2016: TIGIT-CD155 Interactions in Melanoma: a Novel Co-Inhibitory Pathway with Potential for Clinical Intervention. Journal of Investigative Dermatology 136(1): 9-11
Pirenne, F. 2015: TIGIT-positive circulating follicular helper T cells and sickle cell alloimmunization. Haematologica 100(11): 1371-1373
Godefroy, E.; Zhong, H.; Pham, P.; Friedman, D.; Yazdanbakhsh, K. 2015: TIGIT-positive circulating follicular helper T cells display robust B-cell help functions: potential role in sickle cell alloimmunization. Haematologica 100(11): 1415-1425
Manieri, N.A.; Chiang, E.Y.; Grogan, J.L. 2017: TIGIT: a Key Inhibitor of the Cancer Immunity Cycle. Trends in Immunology 38(1): 20-28
Lv, X.; Fu, K.; Li, W.; Wang, Y.; Wang, J.; Li, H.; Tian, W.; Cao, R. 2015: TIIA attenuates LPS-induced mouse endometritis by suppressing the NF-κB signaling pathway. Canadian Journal of Physiology and Pharmacology 93(11): 967-971
Yuan, X.; Dong, B.; Xu, Y.; Dong, L.; Huang, J.; Zhang, J.; Chen, Y.; Xue, W.; Huang, Y. 2016: TIKI2 is upregulated and plays an oncogenic role in renal cell carcinoma. Oncotarget 7(13): 17212-17219
Schober, K.; Busch, D.H. 2016: TIL 2.0: More effective and predictive T-cell products by enrichment for defined antigen specificities. European Journal of Immunology 46(6): 1335-1339
Li, Y.; Zhao, P.; Liu, H.; Guo, X.; He, H.; Zhu, R.; Xiang, Z.; Xia, Q. 2015: TIL-type protease inhibitors may be used as targeted resistance factors to enhance silkworm defenses against invasive fungi. Insect Biochemistry and Molecular Biology 57: 11-19
Guo, Y.; Abernathy, B.; Zeng, Y.; Ozias-Akins, P. 2015: TILLING by sequencing to identify induced mutations in stress resistance genes of peanut (Arachis hypogaea). Bmc Genomics 16: 157
Manzanares, C.; Yates, S.; Ruckle, M.; Nay, M.; Studer, B. 2016: TILLING in forage grasses for gene discovery and breeding improvement. New Biotechnology 33(5 Pt B): 594-603
Sestili, F.; Palombieri, S.; Botticella, E.; Mantovani, P.; Bovina, R.; Lafiandra, D. 2015: TILLING mutants of durum wheat result in a high amylose phenotype and provide information on alternative splicing mechanisms. Plant Science: An International Journal of Experimental Plant Biology 233: 127-133
Richerson, P.J. 2016: TIM LEWENS, Cultural Evolution: Conceptual Challenges, Oxford University Press, x + 205. p. 2015. \$45.00. History and Philosophy of the Life Sciences 38(4): 15-15
Yuan, S.; Cao, L.; Ling, H.; Dang, M.; Sun, Y.; Zhang, X.; Chen, Y.; Zhang, L.; Su, D.; Wang, X.; Rao, Z. 2015: TIM-1 acts a dual-attachment receptor for Ebolavirus by interacting directly with viral GP and the PS on the viral envelope. Protein and Cell 6(11): 814-824
Wang, J.; Qiao, L.; Hou, Z.; Luo, G. 2017: TIM-1 Promotes Hepatitis C Virus Cell Attachment and Infection. Journal of Virology 91(2)
Mosaad, Y.M.; El-Bassiony, S.R.; El-Ghaweet, A.E.; Elhindawy, M.M.; El-Deek, B.S.; Sultan, W.A. 2015: TIM-1 rs41297579 G>A (-1454) and TIM-4 rs7700944 gene polymorphisms as possible risk factor for rheumatoid arthritis: relation to activity and severity. International Journal of Immunogenetics 42(4): 254-264
Yeung, M.Y.; Ding, Q.; Brooks, C.R.; Xiao, S.; Workman, C.J.; Vignali, D.A.A.; Ueno, T.; Padera, R.F.; Kuchroo, V.K.; Najafian, N.; Rothstein, D.M. 2015: TIM-1 signaling is required for maintenance and induction of regulatory B cells. American Journal of Transplantation: Official Journal of the American Society of Transplantation and the American Society of Transplant Surgeons 15(4): 942-953
Li, S.; Ren, Y.; Peng, D.; Yuan, Z.; Shan, S.; Sun, H.; Yan, X.; Xiao, H.; Li, G.; Song, H. 2015: TIM-3 Genetic Variations Affect Susceptibility to Osteoarthritis by Interfering with Interferon Gamma in CD4+ T Cells. Inflammation 38(5): 1857-1863
Ocaña-Guzman, R.; Torre-Bouscoulet, L.; Sada-Ovalle, I. 2016: TIM-3 Regulates Distinct Functions in Macrophages. Frontiers in Immunology 7: 229
Yaghoobi, E.; Abedian, S.; Babani, O.; Izad, M. 2016: TIM-3 Rs10515746 (A/C) and Rs10053538 (C/A) Gene Polymorphisms and Risk of Multiple Sclerosis. Iranian Journal of Public Health 45(5): 644-649
Tomkowicz, B.; Walsh, E.; Cotty, A.; Verona, R.; Sabins, N.; Kaplan, F.; Santulli-Marotto, S.; Chin, C.-N.; Mooney, J.; Lingham, R.B.; Naso, M.; McCabe, T. 2015: TIM-3 Suppresses Anti-CD3/CD28-Induced TCR Activation and IL-2 Expression through the NFAT Signaling Pathway. Plos one 10(10): E0140694
Horlad, H.; Ohnishi, K.; Ma, C.; Fujiwara, Y.; Niino, D.; Ohshima, K.; Jinushi, M.; Matsuoka, M.; Takeya, M.; Komohara, Y. 2016: TIM-3 expression in lymphoma cells predicts chemoresistance in patients with adult T-cell leukemia/lymphoma. Oncology Letters 12(2): 1519-1524
Hiraishi, Y.; Nambu, A.; Shibui, A.; Nakanishi, W.; Yamaguchi, S.; Morita, H.; Iikura, M.; McKenzie, A.N.J.; Matsumoto, K.; Sudo, K.; Yamasoba, T.; Nagase, T.; Nakae, S. 2016: TIM-3 is not essential for development of airway inflammation induced by house dust mite antigens. Allergology International: Official Journal of the Japanese Society of Allergology 65(4): 459-465
Shan, B.; Man, H.; Liu, J.; Wang, L.; Zhu, T.; Ma, M.; Xv, Z.; Chen, X.; Yang, X.; Li, P. 2016: TIM-3 promotes the metastasis of esophageal squamous cell carcinoma by targeting epithelial-mesenchymal transition via the Akt/GSK-3β/Snail signaling pathway. Oncology Reports 36(3): 1551-1561
Tieu, R.; Amancha, P.K.; Villinger, F.ço.; Byrareddy, S.N. 2014: TIM-3, a Possible Target for Immunotherapy in Cancer and Chronic Viral Infections. Austin Virology and Retro Virology 1(2)
Folgiero, V.; Cifaldi, L.; Li Pira, G.; Goffredo, B.M.; Vinti, L.; Locatelli, F. 2015: TIM-3/Gal-9 interaction induces IFNγ-dependent IDO1 expression in acute myeloid leukemia blast cells. Journal of Hematology and Oncology 8: 36
Zhang, X.; Liu, Q.; Wang, J.; Li, G.; Weiland, M.; Yu, F.-S.; Mi, Q.-S.; Gu, J.; Zhou, L. 2016: TIM-4 is differentially expressed in the distinct subsets of dendritic cells in skin and skin-draining lymph nodes and controls skin Langerhans cell homeostasis. Oncotarget 7(25): 37498-37512
Zhang, X.; Gu, J.; Zhou, L.; Mi, Q.-S. 2016: TIM-4 is expressed on invariant NKT cells but dispensable for their development and function. Oncotarget 7(44): 71099-71111
Callegari, S.; Richter, F.; Chojnacka, K.; Jans, D.C.; Lorenzi, I.; Pacheu-Grau, D.; Jakobs, S.; Lenz, C.; Urlaub, H.; Dudek, J.; Chacinska, A.; Rehling, P. 2016: TIM29 is a subunit of the human carrier translocase required for protein transport. Febs Letters 590(23): 4147-4158
Jayaraman, P.; Jacques, M.K.; Zhu, C.; Steblenko, K.M.; Stowell, B.L.; Madi, A.; Anderson, A.C.; Kuchroo, V.K.; Behar, S.M. 2016: TIM3 Mediates T Cell Exhaustion during Mycobacterium tuberculosis Infection. Plos Pathogens 12(3): E1005490
Yang, J.; Yin, S.; Bi, F.; Liu, L.; Qin, T.; Wang, H.; Cao, W. 2017: TIMAP repression by TGFβ and HDAC3-associated Smad signaling regulates macrophage M2 phenotypic phagocytosis. Journal of Molecular Medicine 95(3): 273-285
Boratkó, A.; Veréb, Z.án.; Petrovski, G.; Csortos, C. 2016: TIMAP-protein phosphatase 1-complex controls endothelin-1 production via ECE-1 dephosphorylation. International Journal of Biochemistry and Cell Biology 73: 11-18
Bundgaard, K.; Sørensen, E.E.; Delmar, C. 2016: Time - Making the Best of It! a Fieldwork Study Outlining time in Endoscopy Facilities for Short-Term Stay. Open Nursing Journal 10: 15-25
Lichtwarck, B.ør.; Selbaek, G.; Kirkevold, Øy.; Rokstad, A.M.M.; Benth, J.ūr.ė Ša.ė; Myhre, J.; Nybakken, S.; Bergh, S. 2016: TIME - Targeted interdisciplinary model for evaluation and treatment of neuropsychiatric symptoms: protocol for an effectiveness-implementation cluster randomized hybrid trial. Bmc Psychiatry 16: 233
Houben, R.M.G.J.; Lalli, M.; Sumner, T.; Hamilton, M.; Pedrazzoli, D.; Bonsu, F.; Hippner, P.; Pillay, Y.; Kimerling, M.; Ahmedov, S.; Pretorius, C.; White, R.G. 2016: TIME Impact - a new user-friendly tuberculosis (TB) model to inform TB policy decisions. Bmc Medicine 14: 56
Butts, C.A.; Sangha, R. 2016: TIME for a successful cancer vaccine in NSCLC?. LANCET. Oncology 17(2): 131-132
Pritchard, D.I.; Čeřovský, V.ác.; Nigam, Y.; Pickles, S.F.; Cazander, G.; Nibbering, P.H.; Bültemann, A.; Jung, W. 2016: TIME management by medicinal larvae. International Wound Journal 13(4): 475-484
Young, L.M.; Marzio, A.; Perez-Duran, P.; Reid, D.A.; Meredith, D.N.; Roberti, D.; Star, A.; Rothenberg, E.; Ueberheide, B.; Pagano, M. 2015: TIMELESS Forms a Complex with PARP1 Distinct from Its Complex with TIPIN and Plays a Role in the DNA Damage Response. Cell Reports 13(3): 451-459
Xu, X.; Wang, J.-T.; Li, M.; Liu, Y. 2016: TIMELESS Suppresses the Accumulation of Aberrant CDC45·MCM2-7·GINS Replicative Helicase Complexes on Human Chromatin. Journal of Biological Chemistry 291(43): 22544-22558
He, L.; Wennerberg, K.; Aittokallio, T.; Tang, J. 2015: TIMMA-R: an R package for predicting synergistic multi-targeted drug combinations in cancer cell lines or patient-derived samples. Bioinformatics 31(11): 1866-1868
Sa, Y.; Li, C.; Li, H.; Guo, H. 2015: TIMP-1 Induces α-Smooth Muscle Actin in Fibroblasts to Promote Urethral Scar Formation. Cellular Physiology and Biochemistry: International Journal of Experimental Cellular Physiology Biochemistry and Pharmacology 35(6): 2233-2243
Nalluri, S.; Ghoshal-Gupta, S.; Kutiyanawalla, A.; Gayatri, S.; Lee, B.R.; Jiwani, S.; Rojiani, A.M.; Rojiani, M.V. 2015: TIMP-1 Inhibits Apoptosis in Lung Adenocarcinoma Cells via Interaction with Bcl-2. Plos one 10(9): E0137673
Song, T.; Dou, C.; Jia, Y.; Tu, K.; Zheng, X. 2015: TIMP-1 activated carcinoma-associated fibroblasts inhibit tumor apoptosis by activating SDF1/CXCR4 signaling in hepatocellular carcinoma. Oncotarget 6(14): 12061-12079
Shin, J.-A.; Eom, Y.S.; Yu, W.-Q.; Grzywacz, N.M.; Craft, C.M.; Lee, E.-J. 2015: TIMP-1 affects the spatial distribution of dendritic processes of second-order neurons in a rat model of Retinitis Pigmentosa. Experimental Eye Research 140: 41-52
Spindler, K-Lise.Garm.; Christensen, I.Jarle.; Nielsen, H.Jørgen.; Jakobsen, A.; Brünner, N. 2015: TIMP-1 and CEA as biomarkers in third-line treatment with irinotecan and cetuximab for metastatic colorectal cancer. Tumour Biology: the Journal of the International Society for Oncodevelopmental Biology and Medicine 36(6): 4301-4308
Kawata, N.; Yamaguchi, K.; Igarashi, T.; Takahashi, S. 2016: TIMP-1 as well as Microvessel Invasion and High Nuclear Grade Is a Significant Determinant Factor for Extension of Tumor Diameter in Localized RCC. Journal of Oncology 2016: 5035127
Johnson, K.M.; Crocker, S.J. 2015: TIMP-1 couples RhoK activation to IL-1β-induced astrocyte responses. Neuroscience Letters 609: 165-170
Ionescu, C.; Braicu, C.; Chiorean, R.; Cojocneanu Petric, R.; Neagoe, E.; Pop, L.; Chira, S.; Berindan-Neagoe, I. 2014: TIMP-1 expression in human colorectal cancer is associated with SMAD3 gene expression levels: a pilot study. Journal of Gastrointestinal and Liver Diseases: Jgld 23(4): 413-418
Xu, H.; Zhang, S.; Pan, X.; Cao, H.; Huang, X.; Xu, Q.; Zhong, H.; Peng, X. 2016: TIMP-1 expression induced by IL-32 is mediated through activation of AP-1 signal pathway. International Immunopharmacology 38: 233-237
Tarpgaard, L.S.; Ørum-Madsen, M.S.; Christensen, I.J.; Nordgaard, C.; Noer, J.; Guren, T.K.; Glimelius, B.; Sorbye, H.; Ikdahl, T.; Kure, E.H.; Tveit, K.M.; Nielsen, H.J.; Pfeiffer, P.; Brünner, N.; Moreira, J.é M.A. 2016: TIMP-1 is under regulation of the EGF signaling axis and promotes an aggressive phenotype in KRAS-mutated colorectal cancer cells: a potential novel approach to the treatment of metastatic colorectal cancer. Oncotarget 7(37): 59441-59457
Rojiani, M.V.; Ghoshal-Gupta, S.; Kutiyanawalla, A.; Mathur, S.; Rojiani, A.M. 2015: TIMP-1 overexpression in lung carcinoma enhances tumor kinetics and angiogenesis in brain metastasis. Journal of Neuropathology and Experimental Neurology 74(4): 293-304
Trentini, A.; Manfrinato, M.C.; Castellazzi, M.; Tamborino, C.; Roversi, G.; Volta, C.A.; Baldi, E.; Tola, M.R.; Granieri, E.; Dallocchio, F.; Bellini, T.; Fainardi, E.; Granieri, E.; Castellazzi, M.; Casetta, I.; Tola, M.R.; Fainardi, E.; Dallocchio, F.; Bellini, T.; Rizzo, R.; Rotola, A.; Di Luca, D.; Seraceni, S.; Contini, C.; Sabbioni, S.; Negrini, M.; Tognon, M.; Antonelli, T.; Groppo, E.; Gentile, M.; Baldi, E.; Caniatti, M.L.; Ceruti, S.; Manfrinato, M.R.; Trentini, A.; Bortolotti, D.; Miotto, E.; Ferracin, M.; Mazzoni, E.; Pietrobon, S.; Masini, I.; Rotondo, J.C.; Martini, F.; Baruzzi, A.; D'Alessandro, R.; Michelucci, R.; Salvi, F.; Stecchi, S.; Scandellari, C.; Terzano, G.; Granella, F.; Nichelli, P.; Sola, P.; Ferraro, D.; V 2015: TIMP-1 resistant matrix metalloproteinase-9 is the predominant serum active isoform associated with MRi activity in patients with multiple sclerosis. Multiple Sclerosis 21(9): 1121-1130
Kobuch, J.; Cui, H.; Grünwald, B.; Saftig, P.; Knolle, P.A.; Krüger, A. 2015: TIMP-1 signaling via CD63 triggers granulopoiesis and neutrophilia in mice. Haematologica 100(8): 1005-1013
Herszényi, L. 2014: TIMP-1: a strong player in colorectal cancer. Journal of Gastrointestinal and Liver Diseases: Jgld 23(4): 365-366
Zhang, S.; Gao, X.; Yang, J.; Ji, Z. 2015: TIMP-2 G-418C polymorphism and cancer risk: a meta-analysis. Journal of Cancer Research and Therapeutics 11(2): 308-312
Valacca, C.; Tassone, E.; Mignatti, P. 2015: TIMP-2 Interaction with MT1-MMP Activates the AKT Pathway and Protects Tumor Cells from Apoptosis. Plos one 10(9): E0136797
Xu, P.; Guo, W.; Jin, T.; Wang, J.; Fan, D.; Hao, Z.; Jing, S.; Han, C.; Du, J.; Jiang, D.; Wen, S.; Wang, J. 2017: TIMP-2 SNPs rs7342880 and rs4789936 are linked to risk of knee osteoarthritis in the Chinese Han Population. Oncotarget 8(1): 1166-1176
Furtado, Y.; Almeida, G.; Silveira, F.A.; Silva, K.át.S.; Maldonado, P.; do Val, I.C.; Cavalcanti, S.; L, M.-A.; Carvalho, M.d.G.d.C. 2015: TIMP-2 gene methylation in cervical precursor and invasive lesions. Experimental and Molecular Pathology 98(1): 119-123
Thirumaran, R.; Sabol, J.; Carp, N.; Zemba-Palko, V.; Wallon, M. 2016: TIMP-4 expression in breast cancer induces the Akt-pathway resulting in accelerated disease progression. Journal of Clinical Oncology 26(15_Suppl): 22111-22111
Song, G.; Xu, S.; Zhang, H.; Wang, Y.; Xiao, C.; Jiang, T.; Wu, L.; Zhang, T.; Sun, X.; Zhong, L.; Zhou, C.; Wang, Z.; Peng, Z.; Chen, J.; Wang, X. 2016: TIMP1 is a prognostic marker for the progression and metastasis of colon cancer through FAK-PI3K/AKT and MAPK pathway. Journal of Experimental and Clinical Cancer Research: Cr 35(1): 148
Dong, J.; Ma, Q. 2017: TIMP1 promotes multi-walled carbon nanotube-induced lung fibrosis by stimulating fibroblast activation and proliferation. Nanotoxicology 11(1): 41-51
Ashworth Briggs, E.L.; Toh, T.'Y.; Eri, R.; Hewitt, A.W.; Cook, A.L. 2015: TIMP1, TIMP2, and TIMP4 are increased in aqueous humor from primary open angle glaucoma patients. Molecular Vision 21: 1162-1172
Gunnerson, K.J.; Shaw, A.D.; Chawla, L.S.; Bihorac, A.; Al-Khafaji, A.; Kashani, K.; Lissauer, M.; Shi, J.; Walker, M.G.; Kellum, J.A. 2016: TIMP2•IGFBP7 biomarker panel accurately predicts acute kidney injury in high-risk surgical patients. Journal of Trauma and Acute Care Surgery 80(2): 243-249
Gibb, S.L.; Zhao, Y.; Potter, D.; Hylin, M.J.; Bruhn, R.; Baimukanova, G.; Zhao, J.; Xue, H.; Abdel-Mohsen, M.; Pillai, S.K.; Moore, A.N.; Johnson, E.M.; Cox, C.S.; Dash, P.K.; Pati, S. 2015: TIMP3 Attenuates the Loss of Neural Stem Cells, Mature Neurons and Neurocognitive Dysfunction in Traumatic Brain Injury. Stem Cells 33(12): 3530-3544
Zhang, Y.; Wang, X.; Loesch, K.; May, L.A.; Davis, G.E.; Jiang, J.; Frank, S.J. 2016: TIMP3 Modulates GHR Abundance and GH Sensitivity. Molecular Endocrinology 30(6): 587-599
Stöhr, R.; Kappel, B.A.; Carnevale, D.; Cavalera, M.; Mavilio, M.; Arisi, I.; Fardella, V.; Cifelli, G.; Casagrande, V.; Rizza, S.; Cattaneo, A.; Mauriello, A.; Menghini, R.; Lembo, G.; Federici, M. 2015: TIMP3 interplays with apelin to regulate cardiovascular metabolism in hypercholesterolemic mice. Molecular Metabolism 4(10): 741-752
Han, X.-G.; Li, Y.; Mo, H.-M.; Li, K.; Lin, D.; Zhao, C.-Q.; Zhao, J.; Tang, T.-T. 2016: TIMP3 regulates osteosarcoma cell migration, invasion, and chemotherapeutic resistances. Tumour Biology: the Journal of the International Society for Oncodevelopmental Biology and Medicine 37(7): 8857-8867
Pruefer, F.; Vazquez-Santillan, K.; Munoz-Galindo, L.; Cruz-Colin, J.L.; Maldonado, V.; Melendez-Zajgla, J. 2016: TIMP4 Modulates ER-α Signalling in MCF7 Breast Cancer Cells. Folia Biologica 62(2): 75-81
Torres-Hernandez, A.; Miller, G. 2016: TIMPing Fate: Why Pancreatic Cancer Cells Sojourn in the Liver. Gastroenterology 151(5): 807-808
Johannessen, B.; Sveen, A.; Skotheim, R.I. 2015: TIN: An R Package for Transcriptome Instability Analysis. Cancer Informatics 14: 109-112
Umeyama, H.; Iwadate, M.; Taguchi, Y.-h. 2014: TINAGL1 and B3GALNT1 are potential therapy target genes to suppress metastasis in non-small cell lung cancer. Bmc Genomics 15(Suppl 9): S2
Hoffman, T.W.; van der Vis, J.J.; van Oosterhout, M.F.M.; van Es, H.W.; van Kessel, D.A.; Grutters, J.C.; van Moorsel, C.H.M. 2016: TINF2 Gene Mutation in a Patient with Pulmonary Fibrosis. Case Reports in Pulmonology 2016: 1310862
Dziedzic, J.; Mao, Y.; Shao, Y.; Ponder, J.; Head-Gordon, T.; Head-Gordon, M.; Skylaris, C.-K. 2016: TINKTEP: a fully self-consistent, mutually polarizable QM/MM approach based on the AMOEBA force field. Journal of Chemical Physics 145(12): 124106
Bhat, W.; Ahmad, S.; Côté, J. 2015: TINTIN, at the interface of chromatin, transcription elongation, and mRNA processing. Rna Biology 12(5): 486-489
Aigbe, N.; Madzou, M.; Bennouk, Y.; Ahmimeche, J.; Koki, G.; Messaoudi, R.; El Idrissi, A.; Reda, K.; Oubaaz, A. 2016: TINU syndrome: A case report. Journal Francais d'Ophtalmologie 39(1): E19
Aigbe, N.; Abdelkhalek, R.; El Hamichi, S.; Riani, M.; Youssoufou, A.; Bargach, T.; El Asri, F.; Reda, K.; Oubaaz, A. 2015: TINU syndrome: report of 3 cases. Journal Francais d'Ophtalmologie 38(2): e23-e26
Pinheiro, M.A.; Rocha, M.B.C.; Neri, B.Oliveira.; Parahyba, I.Oliveira.; Moura, L.A.R.; Oliveira, C.Maria.Costa.de.; Kubrusly, M. 2016: TINU syndrome: review of the literature and case report. Jornal Brasileiro de Nefrologia: 'orgao Oficial de Sociedades Brasileira e Latino-Americana de Nefrologia 38(1): 132-136
Heightman, A.J. 2015: TINY RESUSCITATION. A Facebook posting brings back precious EMS memory. Jems: a Journal of Emergency Medical Services 40(7): 14 16
Zhong, N.; Moon, H.S.; Lee, K.H.; Mahayiddin, A.A.; Boonsawat, W.; Isidro, M.G.D.; Bai, C.; Mueller, A.; Metzdorf, N.; Anzueto, A. 2016: TIOtropium Safety and Performance in Respimat® (TIOSPIRTM ): Analysis of Asian cohort of COPD patients. Respirology 21(8): 1397-1403
Snodgrass, W.; Bush, N. 2016: TIP hypospadias repair: a pediatric urology indicator operation. Journal of Pediatric Urology 12(1): 11-18
Yang, W.; Xiao, L.; Li, C.; Liu, X.; Liu, M.; Shao, Q.; Wang, D.; Huang, A.; He, C. 2015: TIP30 inhibits oligodendrocyte precursor cell differentiation via cytoplasmic sequestration of Olig1. Glia 63(4): 684-698
Yu, X.; Li, Z.; Wu, W.K.K. 2014: TIP30: a Novel Tumor-Suppressor Gene. Oncology Research 22(5-6): 339-348
Zhang, Y.; Subbaiah, V.Krishna.; Rajagopalan, D.; Tham, C.Yong.; Abdullah, L.Nurrul.; Toh, T.Boon.; Gong, M.; Tan, T.Zea.; Jadhav, S.Pradip.; Pandey, A.Kumar.; Karnani, N.; Chow, E.Kai-Hua.; Thiery, J.Paul.; Jha, S. 2016: TIP60 inhibits metastasis by ablating DNMT1-SNAIL2-driven epithelial-mesenchymal transition program. Journal of Molecular Cell Biology 8(5): 384-399
Pandey, A.K.; Zhang, Y.; Zhang, S.; Li, Y.; Tucker-Kellogg, G.; Yang, H.; Jha, S. 2015: TIP60-miR-22 axis as a prognostic marker of breast cancer progression. Oncotarget 6(38): 41290-41306
Oho, M.; Nakano, R.; Nakayama, R.; Sakurai, W.; Miyamoto, A.; Masuhiro, Y.; Hanazawa, S. 2016: TIPE2 (Tumor Necrosis Factor α-induced Protein 8-like 2) Is a Novel Negative Regulator of TAK1 Signal. Journal of Biological Chemistry 291(43): 22650-22660
Li, F.; Zhu, X.; Yang, Y.; Huang, L.; Xu, J. 2016: TIPE2 Alleviates Systemic Lupus Erythematosus Through Regulating Macrophage Polarization. Cellular Physiology and Biochemistry: International Journal of Experimental Cellular Physiology Biochemistry and Pharmacology 38(1): 330-339
Liu, Z.-J.; Liu, H.-L.; Zhou, H.-C.; Wang, G.-C. 2016: TIPE2 Inhibits Hypoxia-Induced Wnt/β-Catenin Pathway Activation and EMT in Glioma Cells. Oncology Research 24(4): 255-261
Liu, Q-Qing.; Zhang, F-Feng.; Wang, F.; Qiu, J-Hua.; Luo, C-Hua.; Zhu, G-Yong.; Liu, Y-Fu. 2015: TIPE2 Inhibits Lung Cancer Growth Attributing to Promotion of Apoptosis by Regulating Some Apoptotic Molecules Expression. Plos one 10(5): E0126176
Deng, B.; Feng, Y.; Deng, B. 2015: TIPE2 Mediates the Suppressive Effects of Shikonin on MMP13 in Osteosarcoma Cells. Cellular Physiology and Biochemistry: International Journal of Experimental Cellular Physiology Biochemistry and Pharmacology 37(6): 2434-2443
Lu, Q.; Liu, Z.; Li, Z.; Chen, J.; Liao, Z.; Wu, W-Rui.; Li, Y-Wei. 2016: TIPE2 Overexpression Suppresses the Proliferation, Migration, and Invasion in Prostate Cancer Cells by Inhibiting PI3K/Akt Signaling Pathway. Oncology Research 24(5): 305-313
Zhang, Y.; Shao, Z.; Zhang, X.; Jia, X.; Xia, Y.; Zhang, Y.; Xin, N.; Guo, M.; Chen, J.; Zheng, S.; Wang, Y.; Fu, L.; Dong, R.; Xiao, C.; Geng, D.; Liu, Y. 2015: TIPE2 Play a Negative Role in TLR4-Mediated Autoimmune T Helper 17 Cell Responses in Patients with Myasthenia Gravis. Journal of Neuroimmune Pharmacology: the Official Journal of the Society on Neuroimmune Pharmacology 10(4): 635-644
Zhang, H.; Zhu, T.; Liu, W.; Qu, X.; Chen, Y.; Ren, P.; Wang, Z.; Wei, X.; Zhang, Y.; Yi, F. 2015: TIPE2 acts as a negative regulator linking NOD2 and inflammatory responses in myocardial ischemia/reperfusion injury. Journal of Molecular Medicine 93(9): 1033-1043
Wu, J.; Zhang, H.; Xu, C.; Xu, H.; Zhou, X.; Xie, Y.; Tao, M. 2016: TIPE2 functions as a metastasis suppressor via negatively regulating β-catenin through activating GSK3β in gastric cancer. International Journal of Oncology 48(1): 199-206
Fan, Y.-C.; Wang, N.; Sun, Y.-Y.; Xiao, X.-Y.; Wang, K. 2015: TIPE2 mRNA Level in PBMCs Serves as a Novel Biomarker for Predicting Short-Term Mortality of Acute-on-Chronic Hepatitis B Liver Failure: a Prospective Single-Center Study. Medicine 94(39): E1638
Zhang, W.; Zhang, J.; Zhao, L.; Shao, J.; Cui, J.; Guo, C.; Zhu, F.; Chen, Y.H.; Liu, S. 2015: TIPE2 protein negatively regulates HBV-specific CD8⁺ T lymphocyte functions in humans. Molecular Immunology 64(1): 204-209
Zhang, G.; Zhao, L.; Wang, Y.; Shao, J.; Cui, J.; Lou, Y.; Geng, M.; Zhang, N.; Chen, Y.H.; Liu, S. 2015: TIPE2 protein prevents injury-induced restenosis in mice. Biochimica et Biophysica Acta 1852(8): 1574-1584
Li, X. 2016: TIPE2 regulates tumor-associated macrophages in skin squamous cell carcinoma. Tumour Biology: the Journal of the International Society for Oncodevelopmental Biology and Medicine 37(4): 5585-5590
Li, Z.; Guo, C.; Liu, X.; Zhou, C.; Zhu, F.; Wang, X.; Wang, Q.; Shi, Y.; Wang, J.; Zhao, W.; Zhang, L. 2016: TIPE2 suppresses angiogenesis and non-small cell lung cancer (NSCLC) invasiveness via inhibiting Rac1 activation and VEGF expression. Oncotarget 7(38): 62224-62239
Zhang, Z.; Liu, L.; Liu, C.; Cao, S.; Zhu, Y.; Mei, Q. 2016: TIPE2 suppresses the tumorigenesis, growth and metastasis of breast cancer via inhibition of the AKT and p38 signaling pathways. Oncology Reports 36(6): 3311-3316
Peng, Y.; Zhao, Q.; Zhang, H.; Han, B.; Liu, S.; Han, M.; Liu, S. 2016: TIPE2, a negative regulator of TLR signaling, regulates p27 through IRF4-induced signaling. Oncology Reports 35(4): 2480-2486
Baldeyron, C.él.; Brisson, A.él.; Tesson, B.; Némati, F.; Koundrioukoff, S.ép.; Saliba, E.; De Koning, L.; Martel, E.; Ye, M.; Rigaill, G.; Meseure, D.; Nicolas, A.é; Gentien, D.; Decaudin, D.; Debatisse, M.; Depil, S.ép.; Cruzalegui, F.; Pierré, A.; Roman-Roman, S.; Tucker, G.C.; Dubois, T. 2015: TIPIN depletion leads to apoptosis in breast cancer cells. Molecular Oncology 9(8): 1580-1598
Morton, T.; Wong, W.-K.; Megraw, M. 2015: TIPR: transcription initiation pattern recognition on a genome scale. Bioinformatics 31(23): 3725-3732
Rosales, K.Romero.; Reid, M.A.; Yang, Y.; Tran, T.Q.; Wang, W-I.; Lowman, X.; Pan, M.; Kong, M. 2015: TIPRL Inhibits Protein Phosphatase 4 Activity and Promotes H2AX Phosphorylation in the DNA Damage Response. Plos one 10(12): E0145938
Bercu, Z.L.; Fischman, A.M.; Kim, E.; Nowakowski, F.Scott.; Patel, R.S.; Schiano, T.D.; Chang, C.Y.; Lookstein, R.A. 2015: TIPS for refractory ascites: a 6-year single-center experience with expanded polytetrafluoroethylene-covered stent-grafts. Ajr. American Journal of Roentgenology 204(3): 654-661
Parmar, N.; Day, R.M. 2015: TIPS to manipulate myogenesis: retention of myoblast differentiation capacity using microsphere culture. European Cells and Materials 30: 41-49; Discussion: 49-50
Laborda, A.; Guirola, J.é A.és.; Medrano, J.ín.; Simón, M.Án.; Ioakeim, I.; de-Gregorio, M.Án. 2015: TIPS treatment in a patient with severe lower gastrointestinal bleeding with a misdiagnosis of cirrhotic portal hypertension. Revista Espanola de Enfermedades Digestivas: Organo Oficial de la Sociedad Espanola de Patologia Digestiva 107(12): 766-767
Bearce, E.A.; Erdogan, B.; Lowery, L.A. 2015: TIPsy tour guides: how microtubule plus-end tracking proteins (+TIPs) facilitate axon guidance. Frontiers in Cellular Neuroscience 9: 241
Kanagavelu, S.; Flores, C.; Termini, J.M.; Romero, L.; Riveron, R.; Ruiz, J.; Arditi, M.; Schesser, K.; Fukata, M. 2015: TIR Domain-Containing Adapter-Inducing Beta Interferon (TRIF) Mediates Immunological Memory against Bacterial Pathogens. Infection and Immunity 83(11): 4404-4415
Kanagavelu, S.; Flores, C.; Hagiwara, S.; Ruiz, J.; Hyun, J.; Cho, E.E.; Sun, F.; Romero, L.; Shih, D.Q.; Fukata, M. 2016: TIR-Domain-Containing Adapter-Inducing Interferon-β (TRIF) Regulates CXCR5+ T helper Cells in the Intestine. Journal of Clinical and Cellular Immunology 7(5)
van Lieshout, M.H.P.; Florquin, S.; Vanʼt Veer, C.; de Vos, A.F.; van der Poll, T. 2015: TIR-Domain-Containing Adaptor-Inducing Interferon-β (TRIF) Mediates Antibacterial Defense during Gram-Negative Pneumonia by Inducing Interferon-x03B3. Journal of Innate Immunity 7(6): 637-646
Fendrych, M.áš; Leung, J.; Friml, J.ří 2016: TIR1/AFB-Aux/IAA auxin perception mediates rapid cell wall acidification and growth of Arabidopsis hypocotyls. Elife 5
Schenke, S.; Rink, T.; Zimny, M. 2015: TIRADS for sonographic assessment of hypofunctioning and indifferent thyroid nodules. NUKLEARMEDIZIN. Nuclear Medicine 54(3): 144-150
Serafini, A.; Issa, N.P.; Rose, S.; Wu, S.; Warnke, P.; Tao, J.X. 2016: TIRDA Originating from Lateral Temporal Cortex in a Patient with mTLE Is not Related to Hippocampal Activity. Journal of Clinical Neurophysiology: Official Publication of the American Electroencephalographic Society 33(6): E34-E38
Ki, J.; Arumugam, P.; Song, J.M. 2016: TIRF high-content assay development for the evaluation of drug efficacy of chemotherapeutic agents against EGFR-/HER2-positive breast cancer cell lines. Analytical and Bioanalytical Chemistry 408(12): 3233-3238
Lin, J.; Kurilova, S.; Scott, B.L.; Bosworth, E.; Iverson, B.E.; Bailey, E.M.; Hoppe, A.D. 2016: TIRF imaging of Fc gamma receptor microclusters dynamics and signaling on macrophages during frustrated phagocytosis. Bmc Immunology 17: 5
Chin, S.M.; Jansen, S.; Goode, B.L. 2016: TIRF microscopy analysis of human Cof1, Cof2, and ADF effects on actin filament severing and turnover. Journal of Molecular Biology 428(8): 1604-1616
Daniele, F.; Di Cairano, E.S.; Moretti, S.; Piccoli, G.; Perego, C. 2015: TIRFM and pH-sensitive GFP-probes to evaluate neurotransmitter vesicle dynamics in SH-SY5Y neuroblastoma cells: cell imaging and data analysis. Journal of Visualized Experiments: Jove 2015(95)
Lim, I.K.; Choi, J.-A.; Kim, E.Y.; Kim, B.N.; Jang, S.; Ryu, M.S.; Shim, S.-H. 2017: TIS21/BTG2 inhibits doxorubicin-induced stress fiber-vimentin networks via Nox4-ROS-ABI2-DRF-linked signal cascade. Cellular Signalling 30: 179-190
Lammirato, A.; Patsch, K.; Feiereisen, F.; Maly, K.; Nofziger, C.; Paulmichl, M.; Hackl, H.; Trajanoski, Z.; Valovka, T.; Huber, L.A.; Vietor, I. 2016: TIS7 induces transcriptional cascade of methylosome components required for muscle differentiation. Bmc Biology 14(1): 95
Fassbender, J.M.; Sherman, M.P.; Barr, C.C.; Schaal, S. 2016: Tissue Plasminogen Activator for Subfoveal Hemorrhage Due to Age-Related Macular Degeneration: Comparison of 3 Treatment Modalities. Retina 36(10): 1860-1865
Badylak, S.F. 2016: TISSUE REGENERATION. a scaffold immune microenvironment. Science 352(6283): 298
Zhang, Y.; Desai, A.; Yang, S.Y.; Bae, K.B.; Antczak, M.I.; Fink, S.P.; Tiwari, S.; Willis, J.E.; Williams, N.S.; Dawson, D.M.; Wald, D.; Chen, W.-D.; Wang, Z.; Kasturi, L.; Larusch, G.A.; He, L.; Cominelli, F.; Di Martino, L.; Djuric, Z.; Milne, G.L.; Chance, M.; Sanabria, J.; Dealwis, C.; Mikkola, D.; Naidoo, J.; Wei, S.; Tai, H.-H.; Gerson, S.L.; Ready, J.M.; Posner, B.; Willson, J.K.V.; Markowitz, S.D. 2015: TISSUE REGENERATION. Inhibition of the prostaglandin-degrading enzyme 15-PGDH potentiates tissue regeneration. Science 348(6240): Aaa2340
Geng, P.; Ou, J.; Li, J.; Liao, Y.; Wang, N.; Xie, G.; Sa, R.; Liu, C.; Xiang, L.; Liang, H. 2015: TITF1 and TITF2 loci variants indicate significant associations with thyroid cancer. Endocrine 50(3): 598-607
Ramaswamy, A.H.; Kurdi, M.S.; Sindhupriya 2015: TIVA-A Promising Approach to Anaesthetic Management of Montgomery T-tube Insertion. Journal of Clinical and Diagnostic Research: Jcdr 9(8): Ud03-Ud04
Anonymous 2016: TJC Allows Docs to Text Orders, Still Use Caution. Hospital Peer Review 41(7): 80-81
Anonymous 2016: TJC Launches New SAFER Scoring Matrix. Hospital Peer Review 41(7): 82-83
Anonymous 2015: TJC, medical societies warn of EHR safety issues. Hospital case management: the monthly update on hospital-based care planning and critical paths 23(9): 122-123
Dexel, J.; Beyer, F.; Lützner, C.; Kleber, C.; Lützner, J.ör. 2016: TKA for Posttraumatic Osteoarthritis Is more Complex and Needs more Surgical Resources. Orthopedics 39(3 Suppl): S36-S40
Meng, Y.; Wang, S.; Li, C.; Qian, M.; Zheng, Y.; Yan, X.; Huang, R. 2016: TKD peptide as a ligand targeting drug delivery systems to memHsp70-positive breast cancer. International Journal of Pharmaceutics 498(1-2): 40-48
Wang, H.; Guo, R.; Zhang, L. 2015: TKi Resistance for T790M Mutation. Zhongguo Fei Ai Za Zhi 18(4): 245-250
D'Cunha, R.; Bae, S.; Murry, D.J.; An, G. 2016: TKi combination therapy: strategy to enhance dasatinib uptake by inhibiting Pgp- and BCRP-mediated efflux. Biopharmaceutics and Drug Disposition 37(7): 397-408
Amin, A.D.; Li, L.; Rajan, S.S.; Gokhale, V.; Groysman, M.J.; Pongtornpipat, P.; Tapia, E.O.; Wang, M.; Schatz, J.H. 2016: TKi sensitivity patterns of novel kinase-domain mutations suggest therapeutic opportunities for patients with resistant ALK+ tumors. Oncotarget 7(17): 23715-23729
Poudyal, B.Sharma.; Tuladhar, S.; Gyawali, B. 2016: TKI-induced pure red cell aplasia: first case report of pure red cell aplasia with both imatinib and nilotinib. Esmo Open 1(3): E000058
Charpidou, A.; Syrigos, K.N. 2012: TKIs in NSCLC: the down of a new era?. Translational Lung Cancer Research 1(2): 147-148
Anonymous 2014: TKIs may be option for Ph-like ALL. Cancer discovery 4(12): 1359-1360
Song, Y.; Liu, D.; He, G. 2015: TKTL1 and p63 are biomarkers for the poor prognosis of gastric cancer patients. Cancer Biomarkers: Section a of Disease Markers 15(5): 591-597
Shi, Z.; Tang, Y.; Li, K.; Fan, Q. 2015: TKTL1 expression and its downregulation is implicated in cell proliferation inhibition and cell cycle arrest in esophageal squamous cell carcinoma. Tumour Biology: the Journal of the International Society for Oncodevelopmental Biology and Medicine 36(11): 8519-8529
Kämmerer, U.; Gires, O.; Pfetzer, N.; Wiegering, A.; Klement, R.J.; Otto, C. 2015: TKTL1 expression in human malign and benign cell lines. Bmc Cancer 15: 2
Li, J.; Zhu, S.-C.; Li, S.-G.; Zhao, Y.; Xu, J.-R.; Song, C.-Y. 2015: TKTL1 promotes cell proliferation and metastasis in esophageal squamous cell carcinoma. Biomedicine and PharmacoTherapy 74: 71-76
Matsushima, L.C.; Veneziani, G.R.; Sakuraba, R.K.; Cruz, J.é C.; Campos, L.íc.L. 2015: TL and OSL dose response of LiF:Mg,Ti and Al2O3:C dosimeters using a PMMA phantom for IMRT technique quality assurance. Applied Radiation and Isotopes: Including Data Instrumentation and Methods for use in Agriculture Industry and Medicine 100: 7-10
Ślebioda, T.J.; Bojarska-Junak, A.; Stanisławowski, M.; Cyman, M.; Wierzbicki, P.M.; Roliński, J.; Celiński, K.; Kmieć, Z. 2015: TL1A as a Potential Local Inducer of IL17A Expression in Colon Mucosa of Inflammatory Bowel Disease Patients. Scandinavian Journal of Immunology 82(4): 352-360
Ma, Z.; Wang, B.; Wang, M.; Sun, X.; Tang, Y.; Li, M.; Li, F.; Li, X. 2016: TL1A increased IL-6 production on fibroblast-like synoviocytes by preferentially activating TNF receptor 2 in rheumatoid arthritis. Cytokine 83: 92-98
Facco, M.; Cabrelle, A.; Calabrese, F.; Teramo, A.; Cinetto, F.; Carraro, S.; Martini, V.; Calzetti, F.; Tamassia, N.; Cassatella, M.A.; Semenzato, G.; Agostini, C. 2015: TL1A/DR3 axis involvement in the inflammatory cytokine network during pulmonary sarcoidosis. Clinical and Molecular Allergy: Cma 13(1): 16
Milojković Opsenica, D.ša.; Ristivojević, P.; Trifković, J.; Vovk, I.; Lušić, D.že.; Tešić, Ži. 2016: TLC Fingerprinting and Pattern Recognition Methods in the Assessment of Authenticity of Poplar-Type Propolis. Journal of Chromatographic Science 54(7): 1077-1083
Hawrył, A.; Ziobro, A.; Świeboda, R.; Hawrył, M.ła.; Waksmundzka-Hajnos, M. 2016: TLC Profiles of Selected Cirsium Species with Chemometrics in Construction of their Fingerprints. Journal of Chromatographic Science 54(7): 1096-1104
Karthika, K.; Paulsamy, S. 2015: TLC and HPTLC Fingerprints of Various Secondary Metabolites in the Stem of the Traditional Medicinal Climber, Solena amplexicaulis. Indian Journal of Pharmaceutical Sciences 77(1): 111-116
Janeš, D.; Kreft, S. 2014: TLC densitometric method for screening of lycopsamine in comfrey root (Symphytum officinale L.) extracts using retrorsine as a reference compound. Acta Pharmaceutica 64(4): 503-508
Pobłocka-Olech, L.; Głód, D.; Żebrowska, M.E.; Sznitowska, M.łg.; Krauze-Baranowska, M. 2016: TLC determination of flavonoids from different cultivars of Allium cepa and Allium ascalonicum. Acta Pharmaceutica 66(4): 543-554
Załuski, D.; Smolarz, H.D. 2016: TLC profiling, nutritional and pharmacological properties of Siberian ginseng (Eleutherococcus senticosus) cultivated in Poland. Pakistan Journal of Pharmaceutical Sciences 29(5): 1497-1502
Dolowy, M.łg.; Pyka, A. 2014: TLC--densitometric method for qualitative analysis of betamethasone and its related compounds in pharmacautical preparations. Acta Poloniae Pharmaceutica 71(6): 922-932
Taki, T. 2015: TLC-Blot (Far-Eastern Blot) and its Application to Functional Lipidomics. Methods in Molecular Biology 1314: 219-241
Jesionek, W.; Móricz, Ágnes.M.; Ott, Péter.G.; Kocsis, Béla.; Horváth, Görgyi.; Choma, I.M. 2015: TLC-Direct Bioautography and LC/MS as Complementary Methods in Identification of Antibacterial Agents in Plant Tinctures from the Asteraceae Family. Journal - Association of Official Analytical Chemists 98(4): 857-861
Jesionek, W.; Móricz, Ág.M.; Alberti, Ág.; Ott, P.ét.G.; Kocsis, B.él.; Horváth, G.ör.; Choma, I.M. 2015: TLC-Direct Bioautography as a Bioassay Guided Method for Investigation of Antibacterial Compounds in Hypericum perforatum L. Journal - Association of Official Analytical Chemists 98(4): 1013-1020
Paumier, A.; Le Péchoux, C.éc. 2013: Post-operative radiation therapy. Translational Lung Cancer Research 2(5): 423-432
Yuan, D.; Yang, X.; Yuan, Z.; Zhao, Y.; Guo, J. 2017: TLE1 function and therapeutic potential in cancer. Oncotarget 8(9): 15971-15976
Yao, X.; Ireland, S.K.; Pham, T.; Temple, B.; Chen, R.; Raj, M.H.G.; Biliran, H. 2014: TLE1 promotes EMT in A549 lung cancer cells through suppression of E-cadherin. Biochemical and Biophysical Research Communications 455(3-4): 277-284
Kulkarni, S.; Hicks, D.G.; Watroba, N.; Murekeyisoni, C.; Beck, R.; Ring, B.Z.; Estopinal, N.; Schreeder, M.T.; Seitz, R.S.; Ross, D.T. 2016: TLE3 as a biomarker for taxane sensitivity in breast cancer. Journal of Clinical Oncology 26(15_Suppl): 573-573
Yang, R.-W.; Zeng, Y.-Y.; Wei, W.-T.; Cui, Y.-M.; Sun, H.-Y.; Cai, Y.-L.; Nian, X.-X.; Hu, Y.-T.; Quan, Y.-P.; Jiang, S.-L.; Wang, M.; Zhao, Y.-L.; Qiu, J.-F.; Li, M.-X.; Zhang, J.-H.; He, M.-R.; Liang, L.; Ding, Y.-Q.; Liao, W.-T. 2016: TLE3 represses colorectal cancer proliferation by inhibiting MAPK and AKT signaling pathways. Journal of Experimental and Clinical Cancer Research: Cr 35(1): 152
Wang, S.-Y.; Gao, K.; Deng, D.-L.; Cai, J.-J.; Xiao, Z.-Y.; He, L.-Q.; Jiao, H.-L.; Ye, Y.-P.; Yang, R.-W.; Li, T.-T.; Liang, L.; Liao, W.-T.; Ding, Y.-Q. 2016: TLE4 promotes colorectal cancer progression through activation of JNK/c-Jun signaling pathway. Oncotarget 7(3): 2878-2888
Shin, T.H.; Brynczka, C.; Dayyani, F.; Rivera, M.N.; Sweetser, D.A. 2016: TLE4 regulation of wnt-mediated inflammation underlies its role as a tumor suppressor in myeloid leukemia. Leukemia Research 48: 46-56
Alazami, A.M.; Awad, S.M.; Coskun, S.; Al-Hassan, S.; Hijazi, H.; Abdulwahab, F.M.; Poizat, C.; Alkuraya, F.S. 2015: TLE6 mutation causes the earliest known human embryonic lethality. Genome Biology 16: 240
Carbone, V.; Fluit, R.; Pellikaan, P.; van der Krogt, M.M.; Janssen, D.; Damsgaard, M.; Vigneron, L.; Feilkas, T.; Koopman, H.F.J.M.; Verdonschot, N. 2015: TLEM 2.0 - a comprehensive musculoskeletal geometry dataset for subject-specific modeling of lower extremity. Journal of Biomechanics 48(5): 734-741
Ho, K.-C.; Fang, Y.-H.D.; Chung, H.-W.; Liu, Y.-C.; Chang, J.W.-C.; Hou, M.-M.; Yang, C.-T.; Cheng, N.-M.; Su, T.-P.; Yen, T.-C. 2016: TLG-S criteria are superior to both EORTC and PERCIST for predicting outcomes in patients with metastatic lung adenocarcinoma treated with erlotinib. European Journal of Nuclear Medicine and Molecular Imaging 43(12): 2155-2165
Awate, S.; De Benedetti, A. 2016: TLK1B mediated phosphorylation of Rad9 regulates its nuclear/cytoplasmic localization and cell cycle checkpoint. Bmc Molecular Biology 17: 3
Murakami, M.; Kameda, K.; Tsumoto, H.; Tsuda, T.; Masuda, K.; Utsunomiya, R.; Mori, H.; Miura, Y.; Sayama, K. 2017: TLN-58, an Additional hCAP18 Processing Form, Found in the Lesion Vesicle of Palmoplantar Pustulosis in the Skin. Journal of Investigative Dermatology 137(2): 322-331
Morais, E.A.; Chame, D.F.; Melo, E.M.; de Carvalho Oliveira, J.A.; de Paula, A.C.áu.C.; Peixoto, A.C.; da Silva Santos, L.íl.; Gomes, D.A.; Russo, R.C.; de Goes, A.M. 2016: TLR 9 involvement in early protection induced by immunization with rPb27 against Paracoccidioidomycosis. Microbes and Infection 18(2): 137-147
New, M.; Sheikh, S.; Bekheet, M.; Olzscha, H.; Thezenas, M.-L.; Care, M.A.; Fotheringham, S.; Tooze, R.M.; Kessler, B.; La Thangue, N.B. 2016: TLR Adaptor Protein MYD88 Mediates Sensitivity to HDAC Inhibitors via a Cytokine-Dependent Mechanism. Cancer Research 76(23): 6975-6987
Mohammad, O.; Kaur, J.; Singh, G.; Faisal, S.M.; Azhar, A.; Rauf, M.A.; Gupta, U.D.; Gupta, P.; Pal, R.; Zubair, S. 2016: TLR Agonist Augments Prophylactic Potential of Acid Inducible Antigen Rv3203 against Mycobacterium tuberculosis H37Rv in Experimental Animals. Plos one 11(3): E0152240
Flaherty, S.; Reynolds, J.M. 2016: TLR Function in Murine CD4(+) T Lymphocytes and their Role in Inflammation. Methods in Molecular Biology 1390: 215-227
Salvi, V.; Vaira, X.; Gianello, V.; Vermi, W.; Bugatti, M.; Sozzani, S.; Bosisio, D. 2016: TLR Signalling Pathways Diverge in their Ability to Induce PGE2. Mediators of Inflammation 2016: 5678046
Philip, M.; Chiu, E.Y.; Hajjar, A.M.; Abkowitz, J.L. 2016: TLR Stimulation Dynamically Regulates Heme and Iron Export Gene Expression in Macrophages. Journal of Immunology Research 2016: 4039038
Anstadt, E.J.; Fujiwara, M.; Wasko, N.; Nichols, F.; Clark, R.B. 2016: TLR Tolerance as a Treatment for Central Nervous System Autoimmunity. Journal of Immunology 197(6): 2110-2118
Schölch, S.; Rauber, C.; Weitz, Jürgen.; Koch, M.; Huber, P.E. 2015: TLR activation and ionizing radiation induce strong immune responses against multiple tumor entities. Oncoimmunology 4(11): E1042201
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Hotz, C.; Roetzer, L.C.; Huber, T.; Sailer, A.; Oberson, A.; Treinies, M.; Heidegger, S.; Herbst, T.; Endres, S.; Bourquin, C. 2015: TLR and RLR Signaling Are Reprogrammed in Opposite Directions after Detection of Viral Infection. Journal of Immunology 195(9): 4387-4395
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Gao, J.; Wei, L.; Wei, J.; Yao, G.; Wang, L.; Wang, M.; Liu, X.; Dai, C.; Jin, T.; Dai, Z.; Fu, R. 2016: TLR1 polymorphism rs4833095 as a risk factor for IgA nephropathy in a Chinese Han population: a case-control study. Oncotarget 7(50): 83031-83039
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Zhao, J.; Liu, J.; Denney, J.; Li, C.; Li, F.; Chang, F.; Chen, M.; Yin, D. 2015: TLR2 Involved in Naive CD4+ T Cells Rescues Stress-Induced Immune Suppression by Regulating Th1/Th2 and Th17. Neuroimmunomodulation 22(5): 328-336
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Ifuku, M.; Buonfiglioli, A.; Jordan, P.; Lehnardt, S.; Kettenmann, H. 2016: TLR2 controls random motility, while TLR7 regulates chemotaxis of microglial cells via distinct pathways. Brain Behavior and Immunity 58: 338-347
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Li, S.; Sun, R.; Chen, Y.; Wei, H.; Tian, Z. 2015: TLR2 limits development of hepatocellular carcinoma by reducing IL18-mediated immunosuppression. Cancer Research 75(6): 986-995
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Brandão, Iês.; Hörmann, N.; Jäckel, S.; Reinhardt, C. 2015: TLR5 expression in the small intestine depends on the adaptors MyD88 and TRIF, but is independent of the enteric microbiota. Gut Microbes 6(3): 202-206
Rutkowski, M.R.; Conejo-Garcia, J.R. 2015: TLR5 signaling, commensal microbiota and systemic tumor promoting inflammation: the three parcae of malignant progression. Oncoimmunology 4(8): E1021542
Kassem, A.; Henning, P.; Kindlund, B.; Lindholm, C.; Lerner, U.H. 2015: TLR5, a novel mediator of innate immunity-induced osteoclastogenesis and bone loss. Faseb Journal: Official Publication of the Federation of American Societies for Experimental Biology 29(11): 4449-4460
Bam, R.A.; Hansen, D.; Irrinki, A.; Mulato, A.; Jones, G.S.; Hesselgesser, J.; Frey, C.R.; Cihlar, T.; Yant, S.R. 2017: TLR7 Agonist GS-9620 Is a Potent Inhibitor of Acute HIV-1 Infection in Human Peripheral Blood Mononuclear Cells. Antimicrobial Agents and ChemoTherapy 61(1)
Xiao, Q.; Li, X.; Sun, D.; Yi, H.; Lu, X.; Nian, H. 2016: TLR7 Engagement on Dendritic Cells Enhances Autoreactive Th17 Responses via Activation of ERK. Journal of Immunology 197(10): 3820-3830
Piaserico, S.; Michelotto, A.; Frigo, A.C.; Alaibac, M. 2015: TLR7 Gln11Leu single nucleotide polymorphism and response to treatment with imiquimod in patients with basal cell carcinoma: a pilot study. Pharmacogenomics 16(17): 1913-1917
Elefanti, L.; Sacco, G.; Stagni, C.; Rastrelli, M.; Menin, C.; Russo, I.; Alaibac, M. 2016: TLR7 Gln11Leu single nucleotide polymorphism and susceptibility to cutaneous melanoma. Oncology Letters 12(1): 275-280
Maeda, K.; Akira, S. 2016: TLR7 Structure: Cut in Z-Loop. Immunity 45(4): 705-707
Ren, X.; Wang, F.; Ji, B.; Gao, C. 2016: TLR7 agonist induced repression of hepatocellular carcinoma via the TLR7-IKK-NF-κB-IL6 signaling pathway. Oncology Letters 11(5): 2965-2970
Drake, M.G. 2016: TLR7 agonist-induced bronchodilation: key mechanistic questions remain. American Journal of Physiology. Lung Cellular and Molecular Physiology 311(1): L177
Grimmig, T.; Matthes, N.; Hoeland, K.; Tripathi, S.; Chandraker, A.; Grimm, M.; Moench, R.; Moll, E.-M.; Friess, H.; Tsaur, I.; Blaheta, R.A.; Germer, C.T.; Waaga-Gasser, A.M.; Gasser, M. 2015: TLR7 and TLR8 expression increases tumor cell proliferation and promotes chemoresistance in human pancreatic cancer. International Journal of Oncology 47(3): 857-866
Celhar, T.; Pereira-Lopes, S.; Thornhill, S.I.; Lee, H.Yin.; Dhillon, M.K.; Poidinger, M.; Connolly, J.E.; Lim, L.H.K.; Biswas, S.K.; Fairhurst, A-Marie. 2016: TLR7 and TLR9 ligands regulate antigen presentation by macrophages. International Immunology 28(5): 223-232
Boneparth, A.; Huang, W.; Bethunaickan, R.; Woods, M.; Sahu, R.; Arora, S.; Akerman, M.; Lesser, M.; Davidson, A. 2015: TLR7 influences germinal center selection in murine SLE. Plos one 10(3): E0119925
Li, X.-p.; Sun, L. 2015: TLR7 is required for optimal immune defense against bacterial infection in tongue sole (Cynoglossus semilaevis). Fish and Shellfish Immunology 47(1): 93-99
Gu, L.; Zhou, J.; Tan, J.; Su, L.; Wei, Q.; Jiang, H.; Liang, B.; Tang, Q. 2016: TLR7 rs2897827 Polymorphism Affects TLR7 Gene mRNA Expression and Serum Apolipoprotein A1 Level of Ischemic Stroke Patients in a Chinese Han Population. Journal of Molecular Neuroscience: Mn 59(3): 397-403
Koga-Yamakawa, E.; Murata, M.; Dovedi, S.J.; Wilkinson, R.W.; Ota, Y.; Umehara, H.; Sugaru, E.; Hirose, Y.; Harada, H.; Jewsbury, P.J.; Yamamoto, S.; Robinson, D.T.; Li, C.J. 2015: TLR7 tolerance is independent of the type i IFN pathway and leads to loss of anti-tumor efficacy in mice. Cancer Immunology Immunotherapy: Cii 64(10): 1229-1239
Rubtsova, K.; Marrack, P.; Rubtsov, A.V. 2015: TLR7, IFNγ, and T-bet: their roles in the development of ABCs in female-biased autoimmunity. Cellular Immunology 294(2): 80-83
Simchoni, N.; Cunningham-Rundles, C. 2015: TLR7- and TLR9-responsive human B cells share phenotypic and genetic characteristics. Journal of Immunology 194(7): 3035-3044
McColl, A.; Thomson, C.A.; Nerurkar, L.; Graham, G.J.; Cavanagh, J. 2016: TLR7-mediated skin inflammation remotely triggers chemokine expression and leukocyte accumulation in the brain. Journal of Neuroinflammation 13(1): 102
Hofmann, H.; Vanwalscappel, B.én.éd.; Bloch, N.; Landau, N.R. 2016: TLR7/8 agonist induces a post-entry SAMHD1-independent block to HIV-1 infection of monocytes. Retrovirology 13(1): 83
Zhou, Z.; Yu, X.; Zhang, J.; Tian, Z.; Zhang, C. 2015: TLR7/8 agonists promote NK-DC cross-talk to enhance NK cell anti-tumor effects in hepatocellular carcinoma. Cancer Letters 369(2): 298-306
Paul, A.M.; Acharya, D.; Le, L.; Wang, P.; Stokic, D.S.; Leis, A.A.; Alexopoulou, L.; Town, T.; Flavell, R.A.; Fikrig, E.; Bai, F. 2016: TLR8 Couples SOCS-1 and Restrains TLR7-Mediated Antiviral Immunity, Exacerbating West Nile Virus Infection in Mice. Journal of Immunology 197(11): 4425-4435
Eigenbrod, T.; Pelka, K.; Latz, E.; Kreikemeyer, B.; Dalpke, A.H. 2015: TLR8 Senses Bacterial RNA in Human Monocytes and Plays a Nonredundant Role for Recognition of Streptococcus pyogenes. Journal of Immunology 195(3): 1092-1099
Bergstrøm, B.; Aune, M.H.; Awuh, J.A.; Kojen, J.F.; Blix, K.J.; Ryan, L.; Flo, T.H.; Mollnes, T.E.; Espevik, T.; Stenvik, J.ør. 2015: TLR8 Senses Staphylococcus aureus RNA in Human Primary Monocytes and Macrophages and Induces IFN-β Production via a TAK1-IKKβ-IRF5 Signaling Pathway. Journal of Immunology 195(3): 1100-1111
Bukhari, M.; Aslam, M.A.; Khan, A.; Iram, Q.; Akbar, A.; Naz, A.G.; Ahmad, S.; Ahmad, M.M.; Ashfaq, U.A.; Aziz, H.; Ali, M. 2015: TLR8 gene polymorphism and association in bacterial load in southern Punjab of Pakistan: an association study with pulmonary tuberculosis. International Journal of Immunogenetics 42(1): 46-51
Low, H.Z.; Ahrenstorf, G.; Pommerenke, C.; Habermann, N.; Schughart, K.; Ordóñez, D.; Stripecke, R.; Wilk, E.; Witte, T. 2016: TLR8 regulation of LILRA3 in monocytes is abrogated in human immunodeficiency virus infection and correlates to CD4 counts and virus loads. Retrovirology 13: 15
Makni-Maalej, K.; Marzaioli, V.; Boussetta, T.; Belambri, S.A.; Gougerot-Pocidalo, M.-A.; Hurtado-Nedelec, M.; Dang, P.M.-C.; El-Benna, J. 2015: TLR8, but not TLR7, induces the priming of the NADPH oxidase activation in human neutrophils. Journal of Leukocyte Biology 97(6): 1081-1087
Paradowska, E.; Jabłońska, A.; Studzińska, M.ła.; Skowrońska, K.; Suski, P.; Wiśniewska-Ligier, M.łg.; Woźniakowska-Gęsicka, T.; Nowakowska, D.; Gaj, Z.; Wilczyński, J.; Leśnikowski, Z.J. 2016: TLR9 -1486T/C and 2848C/T SNPs Are Associated with Human Cytomegalovirus Infection in Infants. Plos one 11(4): E0154100
Wujcicka, W.; Paradowska, E.; Studzińska, M.ła.; Gaj, Z.; Wilczyński, J.; Leśnikowski, Z.; Nowakowska, D. 2015: TLR9 2848 GA heterozygotic status possibly predisposes fetuses and newborns to congenital infection with human cytomegalovirus. Plos one 10(4): E0122831
Bossaller, L.; Christ, A.; Pelka, K.; Nündel, K.; Chiang, P.-I.; Pang, C.; Mishra, N.; Busto, P.; Bonegio, R.G.; Schmidt, R.E.; Latz, E.; Marshak-Rothstein, A. 2016: TLR9 Deficiency Leads to Accelerated Renal Disease and Myeloid Lineage Abnormalities in Pristane-Induced Murine Lupus. Journal of Immunology 197(4): 1044-1053
Bakker, P.J.; Scantlebery, A.M.; Butter, L.M.; Claessen, N.; Teske, G.J.D.; van der Poll, T.; Florquin, S.; Leemans, J.C. 2015: TLR9 Mediates Remote Liver Injury following Severe Renal Ischemia Reperfusion. Plos one 10(9): E0137511
Varga, M.G.; Piazuelo, M.B.; Romero-Gallo, J.; Delgado, A.G.; Suarez, G.; Whitaker, M.E.; Krishna, U.S.; Patel, R.V.; Skaar, E.P.; Wilson, K.T.; Algood, H.M.S.; Peek, R.M. 2016: TLR9 activation suppresses inflammation in response to Helicobacter pylori infection. American Journal of Physiology. Gastrointestinal and Liver Physiology 311(5): G852-G858
Temizoz, B.; Kuroda, E.; Ohata, K.; Jounai, N.; Ozasa, K.; Kobiyama, K.; Aoshi, T.; Ishii, K.J. 2015: TLR9 and STING agonists synergistically induce innate and adaptive type-Ii IFN. European Journal of Immunology 45(4): 1159-1169
Mao, X.; Peng, L.; Liu, X.; Yang, Y.; Wang, Q.; Wang, D.; Xiao, J.; Leng, J. 2016: TLR9 expression is positively correlated with the levels of CD38, HLA-DR and CD95 on peripheral blood mononuclear cells in chronic HBV infected patients. Xi Bao Yu Fen Zi Mian Yi Xue Za Zhi 32(5): 660-665
Foronjy, R.F.; Salathe, M.A.; Dabo, A.J.; Baumlin, N.; Cummins, N.; Eden, E.; Geraghty, P. 2016: TLR9 expression is required for the development of cigarette smoke-induced emphysema in mice. American Journal of Physiology. Lung Cellular and Molecular Physiology 311(1): L154-L166
Graustein, A.D.; Horne, D.J.; Arentz, M.; Bang, N.D.; Chau, T.T.H.; Thwaites, G.E.; Caws, M.; Thuong, N.T.T.; Dunstan, S.J.; Hawn, T.R. 2015: TLR9 gene region polymorphisms and susceptibility to tuberculosis in Vietnam. Tuberculosis 95(2): 190-196
Cannella, F.; Pierangeli, A.; Scagnolari, C.; Cacciotti, G.; Tranquilli, G.; Stentella, P.; Recine, N.; Antonelli, G. 2015: TLR9 is expressed in human papillomavirus-positive cervical cells and is overexpressed in persistent infections. Immunobiology 220(3): 363-368
Gomes, M.T.úl.; Campos, P.C.; Pereira, G.d.S.; Bartholomeu, D.C.; Splitter, G.; Oliveira, S.C. 2016: TLR9 is required for MAPK/NF-κB activation but does not cooperate with TLR2 or TLR6 to induce host resistance to Brucella abortus. Journal of Leukocyte Biology 99(5): 771-780
Zambirinis, C.P.; Levie, E.; Nguy, S.; Avanzi, A.; Barilla, R.; Xu, Y.; Seifert, L.; Daley, D.; Greco, S.H.; Deutsch, M.; Jonnadula, S.; Torres-Hernandez, A.; Tippens, D.; Pushalkar, S.; Eisenthal, A.; Saxena, D.; Ahn, J.; Hajdu, C.; Engle, D.D.; Tuveson, D.; Miller, G. 2015: TLR9 ligation in pancreatic stellate cells promotes tumorigenesis. Journal of Experimental Medicine 212(12): 2077-2094
Mohamed, W.; Domann, E.; Chakraborty, T.; Mannala, G.; Lips, K.S.; Heiss, C.; Schnettler, R.; Alt, V. 2016: TLR9 mediates S. aureus killing inside osteoblasts via induction of oxidative stress. Bmc Microbiology 16(1): 230
Ni, W.; Wang, F.; Liu, G.; Zhang, N.; Yuan, H.; Jie, J.; Tai, G. 2016: TLR9 played a more important role than TLR2 in the combination of maltose-binding protein and BCG-induced Th1 activation. Molecular Immunology 79: 32-37
Wang, D.; Zhang, C.; Zhou, Z.; Pei, F. 2016: TLR9 polymorphisms and systemic lupus erythematosus risk: an update meta-analysis study. Rheumatology International 36(4): 585-595
Hong, C.-P.; Yun, C.H.; Lee, G.-W.; Park, A.; Kim, Y.-M.; Jang, M.H. 2015: TLR9 regulates adipose tissue inflammation and obesity-related metabolic disorders. Obesity 23(11): 2199-2206
Moreira, D.; Zhang, Q.; Hossain, D.M.S.; Nechaev, S.; Li, H.; Kowolik, C.M.; D'Apuzzo, M.; Forman, S.; Jones, J.; Pal, S.K.; Kortylewski, M. 2015: TLR9 signaling through NF-κB/RELA and STAT3 promotes tumor-propagating potential of prostate cancer cells. Oncotarget 6(19): 17302-17313
Hasan, M.; Gruber, E.; Cameron, J.; Leifer, C.A. 2016: TLR9 stability and signaling are regulated by phosphorylation and cell stress. Journal of Leukocyte Biology 100(3): 525-533
Hossain, D.M.S.; Pal, S.K.; Moreira, D.; Duttagupta, P.; Zhang, Q.; Won, H.; Jones, J.; D'Apuzzo, M.; Forman, S.; Kortylewski, M. 2015: TLR9-Targeted STAT3 Silencing Abrogates Immunosuppressive Activity of Myeloid-Derived Suppressor Cells from Prostate Cancer Patients. Clinical Cancer Research: An Official Journal of the American Association for Cancer Research 21(16): 3771-3782
Hossain, D.M.S.; Moreira, D.; Zhang, Q.; Nechaev, S.; Swiderski, P.; Kortylewski, M. 2016: TLR9-Targeted SiRNA Delivery in Vivo. Methods in Molecular Biology 1364: 183-196
Pandey, S.P.; Doyen, N.; Mishra, G.C.; Saha, B.; Chandel, H.S. 2015: TLR9-deficiency reduces TLR1, TLR2 and TLR3 expressions in Leishmania major-infected macrophages. Experimental Parasitology 154: 82-86
Liu, F.; Fan, H.; Ren, D.; Dong, G.; Hu, E.; Ji, J.; Hou, Y. 2015: TLR9-induced miR-155 and Ets-1 decrease expression of CD1d on B cells in SLE. European Journal of Immunology 45(7): 1934-1945
Weaver, L.K.; Chu, N.; Behrens, E.M. 2016: TLR9-mediated inflammation drives a Ccr2-independent peripheral monocytosis through enhanced extramedullary monocytopoiesis. Proceedings of the National Academy of Sciences of the United States of America 113(39): 10944-10949
Netea, M.G.; Joosten, L.A.B. 2016: TLRs of our Fathers. Immunity 44(2): 218-220
Sautès-Fridman, C.; Fridman, W.H. 2016: TLS in Tumors: what Lies Within. Trends in Immunology 37(1): 1-2
Takasawa, R.; Shimada, N.; Uchiro, H.; Takahashi, S.; Yoshimori, A.; Tanuma, S.-I. 2016: TLSC702, a Novel Inhibitor of Human Glyoxalase I, Induces Apoptosis in Tumor Cells. Biological and Pharmaceutical Bulletin 39(5): 869-873
Sobhan, P.K.; Funa, K. 2017: TLX-Its Emerging Role for Neurogenesis in Health and Disease. Molecular Neurobiology 54(1): 272-280
Benod, C.; Villagomez, R.; Webb, P. 2016: TLX: An elusive receptor. Journal of Steroid Biochemistry and Molecular Biology 157: 41-47
Kalanaky, S.; Hafizi, M.; Safari, S.; Mousavizadeh, K.; Kabiri, M.; Farsinejad, A.; Fakharzadeh, S.; Nazaran, M.H. 2016: TLc-A, the leading nanochelating-based nanochelator, reduces iron overload in vitro and in vivo. International Journal of Hematology 103(3): 274-282
Ku, H-Chun.; Lee, S-Yi.; Chen, C-Hsuan.; Wang, Y-Hsing.; Lin, C-Ting.; Lee, S-Sheng.; Li, T-Hsuan.; Su, M-Jai. 2015: TM-1-1DP exerts protective effect against myocardial ischemia reperfusion injury via AKT-eNOS pathway. Naunyn-Schmiedeberg's Archives of Pharmacology 388(5): 539-548
Sagawa, M.; Tabayashi, T.; Kimura, Y.; Tomikawa, T.; Nemoto-Anan, T.; Watanabe, R.; Tokuhira, M.; Ri, M.; Hashimoto, Y.; Iida, S.; Kizaki, M. 2015: TM-233, a novel analog of 1'-acetoxychavicol acetate, induces cell death in myeloma cells by inhibiting both JAK/STAT and proteasome activities. Cancer Science 106(4): 438-446
Jung, J.G.; Yi, S.-A.; Choi, S.-E.; Kang, Y.; Kim, T.H.; Jeon, J.Y.; Bae, M.A.; Ahn, J.H.; Jeong, H.; Hwang, E.S.; Lee, K.-W. 2015: TM-25659-Induced Activation of FGF21 Level Decreases Insulin Resistance and Inflammation in Skeletal Muscle via GCN2 Pathways. Molecules and Cells 38(12): 1037-1043
Grimes, C.A.; Gonda, M.A.; Alvarez, V.L. 2016: TM-601 targets human cancer cells via a phosphatidylinositol phosphate in lamellipodia. Journal of Clinical Oncology 23(16_Suppl): 9556-9556
Kim, S.-K.; Nam, S.; Jang, H.; Kim, A.; Lee, J.-J. 2015: TM-MC: a database of medicinal materials and chemical compounds in Northeast Asian traditional medicine. Bmc Complementary and Alternative Medicine 15: 218
Cao, J.; Yang, J.; Ramachandran, V.; Arumugam, T.; Deng, D.; Li, Z.; Xu, L.; Logsdon, C.D. 2015: TM4SF1 Promotes Gemcitabine Resistance of Pancreatic Cancer in Vitro and in Vivo. Plos one 10(12): E0144969
Huang, Y.-K.; Fan, X.-G.; Qiu, F. 2016: TM4SF1 Promotes Proliferation, Invasion, and Metastasis in Human Liver Cancer Cells. International Journal of Molecular Sciences 17(5)
Cao, J.; Yang, J.-C.; Ramachandran, V.; Arumugam, T.; Deng, D.-F.; Li, Z.-S.; Xu, L.-M.; Logsdon, C.D. 2016: TM4SF1 Regulates Pancreatic Cancer Migration and Invasion in Vitro and in Vivo. Cellular Physiology and Biochemistry: International Journal of Experimental Cellular Physiology Biochemistry and Pharmacology 39(2): 740-750
Zheng, B.; Ohuchida, K.; Cui, L.; Zhao, M.; Shindo, K.; Fujiwara, K.; Manabe, T.; Torata, N.; Moriyama, T.; Miyasaka, Y.; Ohtsuka, T.; Takahata, S.; Mizumoto, K.; Oda, Y.; Tanaka, M. 2015: TM4SF1 as a prognostic marker of pancreatic ductal adenocarcinoma is involved in migration and invasion of cancer cells. International Journal of Oncology 47(2): 490-498
Bhansali, M.; Zhou, J.; Shemshedini, L. 2016: TM4SF3 and AR: a Nuclear Complex that Stabilizes Both Proteins. Molecular Endocrinology 30(1): 13-25
Li, D.F.; Yang, M.F.; Shi, S.L.; Du, Y.L.; Wang, H.; Zhou, Y.L.; Luo, Y.L.; Ren, L.L.; Nie, Y.Q. 2015: TM4SF5-CTD-2354A18.1-miR-4697-3P may play a key role in the pathogenesis of gastric cancer. Bratislavske Lekarske Listy 116(10): 608-615
Chen, L.-Z.; Xia, H.H.-X.; Xin, Y.-N.; Lin, Z.-H.; Xuan, S.-Y. 2015: TM6SF2 E167K Variant, a Novel Genetic Susceptibility Variant, Contributing to Nonalcoholic Fatty Liver Disease. Journal of Clinical and Translational Hepatology 3(4): 265-270
Coppola, N.; Rosa, Z.; Cirillo, G.; Stanzione, M.; Macera, M.; Boemio, A.; Grandone, A.; Pisaturo, M.; Marrone, A.; Adinolfi, L.E.; Sagnelli, E.; Miraglia del Giudice, E. 2015: TM6SF2 E167K variant is associated with severe steatosis in chronic hepatitis C, regardless of PNPLA3 polymorphism. Liver International: Official Journal of the International Association for the Study of the Liver 35(8): 1959-1963
Sagnelli, C.; Merli, M.; Uberti-Foppa, C.; Hasson, H.; Grandone, A.; Cirillo, G.; Salpietro, S.; Minichini, C.; Starace, M.; Messina, E.; Morelli, P.; Miraglia Del Giudice, E.; Lazzarin, A.; Coppola, N.; Sagnelli, E. 2016: TM6SF2 E167K variant predicts severe liver fibrosis for human immunodeficiency/hepatitis C virus co-infected patients, and severe steatosis only for a non-3 hepatitis C virus genotype. World Journal of Gastroenterology 22(38): 8509-8518
Grandone, A.; Cozzolino, D.; Marzuillo, P.; Cirillo, G.; Di Sessa, A.; Ruggiero, L.; Di Palma, M.R.; Perrone, L.; Miraglia Del Giudice, E. 2016: TM6SF2 Glu167Lys polymorphism is associated with low levels of LDL-cholesterol and increased liver injury in obese children. Pediatric Obesity 11(2): 115-119
Sanchez-Pulido, L.; Ponting, C.P. 2014: TM6SF2 and MAC30, new enzyme homologs in sterol metabolism and common metabolic disease. Frontiers in Genetics 5: 439
Daly, A.K.; Day, C.P.; Liu, Y.-L.; Anstee, Q.M. 2015: TM6SF2 as a genetic risk factor for fibrosis. Hepatology 62(4): 1321
Musso, G.; Cassader, M.; Paschetta, E.; Gambino, R. 2016: TM6SF2 may drive postprandial lipoprotein cholesterol toxicity away from the vessel walls to the liver in NAFLD. Journal of Hepatology 64(4): 979-981
Petta, S.; Maida, M.; Grimaudo, S.; Pipitone, R.M.; Macaluso, F.S.; Cabibi, D.; Cammà, C.; Di Marco, V.; Sferrazza, S.; Craxì, A. 2016: TM6SF2 rs58542926 is not associated with steatosis and fibrosis in large cohort of patients with genotype 1 chronic hepatitis C. Liver International: Official Journal of the International Association for the Study of the Liver 36(2): 198-204
Kahali, B.; Liu, Y.-L.; Daly, A.K.; Day, C.P.; Anstee, Q.M.; Speliotes, E.K. 2015: TM6SF2: catch-22 in the fight against nonalcoholic fatty liver disease and cardiovascular disease?. Gastroenterology 148(4): 679-684
Sizova, M.V.; Doerfert, S.N.; Gavrish, E.; Epstein, S.S. 2015: TM7 detection in human microbiome: Are PCR primers and FISH probes specific enough?. Journal of Microbiological Methods 114: 51-53
Perrin, J.; Le Coadic, M.; Vernay, A.; Dias, M.; Gopaldass, N.; Ouertatani-Sakouhi, H.; Cosson, P. 2015: TM9 family proteins control surface targeting of glycine-rich transmembrane domains. Journal of Cell Science 128(13): 2269-2277
Sorrel, A.Lynn. 2015: TMA Uncovers Medicare Mistakes. Texas Medicine 111(7): 24-31
Fogelman, A.M. 2015: TMAO is both a biomarker and a renal toxin. Circulation Research 116(3): 396-397
Hong, J.; Xiong, S. 2016: TMAO-Protein Preferential Interaction Profile Determines TMAO's Conditional In Vivo Compatibility. Biophysical Journal 111(9): 1866-1875
Ufnal, M.; Zadlo, A.; Ostaszewski, R. 2015: TMAO: a small molecule of great expectations. Nutrition 31(11-12): 1317-1323
Kurlapski, Mł.; Wójcik-Stasiak, Młgorzata.; Klincewicz, Pł.; Januszczyk, J.; Wołyniec, W.; Renke, M.; Trzeciakowska-Aziz, K. 2014: TMAS - Maritime Telemedical Assistance Service at the University Centre of Maritime and Tropical Medicine in Gdynia. The first year activity report. International Maritime Health 65(3): 174
Boecker, F.; Buerger, H.; Mallela, N.V.; Korsching, E. 2016: TMAinspiration: Decode Interdependencies in Multifactorial Tissue Microarray Data. Cancer Informatics 15: 143-149
Yadav, R.Kumar.; Lee, G-Hwa.; Lee, H-Young.; Li, B.; Jung, H-Eul.; Rashid, H-Or.; Choi, M.Kyung.; Yadav, B.Kumar.; Kim, W-Ho.; Kim, K-Woon.; Park, B-Hyun.; Kim, W.; Lee, Y-Chul.; Kim, H-Ryong.; Chae, H-Jung. 2015: TMBIM6 (transmembrane BAX inhibitor motif containing 6) enhances autophagy and reduces renal dysfunction in a cyclosporine A-induced nephrotoxicity model. Autophagy 11(10): 1760-1774
Wang, X.; Li, G.; Liu, J.; Liu, J.; Xu, X.Z.S. 2016: TMC-1 Mediates Alkaline Sensation in C. elegans through Nociceptive Neurons. Neuron 91(1): 146-154
Upadhyay, P.; Gardi, N.; Desai, S.; Sahoo, B.; Singh, A.; Togar, T.; Iyer, P.; Prasad, R.; Chandrani, P.; Gupta, S.; Dutt, A. 2016: TMC-SNPdb: an Indian germline variant database derived from whole exome sequences. Database: the Journal of Biological Databases and Curation 2016
Kurima, K.; Ebrahim, S.; Pan, B.; Sedlacek, M.; Sengupta, P.; Millis, B.A.; Cui, R.; Nakanishi, H.; Fujikawa, T.; Kawashima, Y.; Choi, B.Y.; Monahan, K.; Holt, J.R.; Griffith, A.J.; Kachar, B. 2015: TMC1 and TMC2 Localize at the Site of Mechanotransduction in Mammalian Inner Ear Hair Cell Stereocilia. Cell Reports 12(10): 1606-1617
Wang, Q.-C.; Zheng, Q.; Tan, H.; Zhang, B.; Li, X.; Yang, Y.; Yu, J.; Liu, Y.; Chai, H.; Wang, X.; Sun, Z.; Wang, J.-Q.; Zhu, S.; Wang, F.; Yang, M.; Guo, C.; Wang, H.; Zheng, Q.; Li, Y.; Chen, Q.; Zhou, A.; Tang, T.-S. 2016: TMCO1 Is an ER Ca(2+) Load-Activated Ca(2+) Channel. Cell 165(6): 1454-1466
Shulman, J. 2015: TMD Controversy Continues. Journal of the California Dental Association 43(12): 702
DiBenedetto, D. 2016: TMD Diagnostic Criteria. Journal of the American Dental Association 147(10): 775-776
Furquim, B.D.'A.; Flamengui, L.ív.M.S.P.; Conti, P.C.és.R. 2015: TMD and chronic pain: a current view. Dental Press Journal of Orthodontics 20(1): 127-133
Visscher, C.M.; Lobbezoo, F. 2015: TMD pain is partly heritable. A systematic review of family studies and genetic association studies. Journal of Oral Rehabilitation 42(5): 386-399
Meng, C.; Li, Y.; Wang, Y.; Yang, W.; Jiao, J.; Wang, M.; Zhang, M.; Li, Y.; Wu, J. 2015: TMDL for phosphorus and contributing factors in subtropical watersheds of southern China. Environmental Monitoring and Assessment 187(8): 514