Section 57

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Ye, X.; Wu, F.; Wu, C.; Wang, P.; Jung, K.; Gopal, K.; Ma, Y.; Li, L.; Lai, R. 2014: β-Catenin, a Sox2 binding partner, regulates the DNA binding and transcriptional activity of Sox2 in breast cancer cells. Cellular Signalling 26(3): 492-501
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Han, J.; Sridevi, P.; Ramirez, M.; Ludwig, K.J.; Wang, J.Y.J. 2013: β-Catenin-dependent lysosomal targeting of internalized tumor necrosis factor-α suppresses caspase-8 activation in apoptosis-resistant colon cancer cells. Molecular Biology of the Cell 24(4): 465-473
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Rosenbluh, J.; Nijhawan, D.; Cox, A.G.; Li, X.; Neal, J.T.; Schafer, E.J.; Zack, T.I.; Wang, X.; Tsherniak, A.; Schinzel, A.C.; Shao, D.D.; Schumacher, S.E.; Weir, B.A.; Vazquez, F.; Cowley, G.S.; Root, D.E.; Mesirov, J.P.; Beroukhim, R.; Kuo, C.J.; Goessling, W.; Hahn, W.C. 2012: β-Catenin-driven cancers require a YAP1 transcriptional complex for survival and tumorigenesis. Cell 151(7): 1457-1473
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Xu, C.; Xie, D.; Yu, S.-C.; Yang, X.-J.; He, L.-R.; Yang, J.; Ping, Y.-F.; Wang, B.; Yang, L.; Xu, S.-L.; Cui, W.; Wang, Q.-L.; Fu, W.-J.; Liu, Q.; Qian, C.; Cui, Y.-H.; Rich, J.N.; Kung, H.-F.; Zhang, X.; Bian, X.-W. 2013: β-Catenin/POU5F1/SOX2 transcription factor complex mediates IGF-i receptor signaling and predicts poor prognosis in lung adenocarcinoma. Cancer Research 73(10): 3181-3189
Aljawai, Y.; Richards, M.H.; Seaton, M.S.; Narasipura, S.D.; Al-Harthi, L. 2014: β-Catenin/TCF-4 signaling regulates susceptibility of macrophages and resistance of monocytes to HIV-1 productive infection. Current HIV Research 12(3): 164-173
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Egerod, K.L.; Jin, C.; Petersen, P.S.; Wierup, N.; Sundler, F.; Holst, B.; Schwartz, T.W. 2011: β-Cell Specific Overexpression of GPR39 Protects against Streptozotocin-Induced Hyperglycemia. International Journal of Endocrinology 2011: 401258
Fransson, L.; Franzén, S.; Rosengren, V.; Wolbert, P.; Sjöholm, Åk.; Ortsäter, H. 2013: β-Cell adaptation in a mouse model of glucocorticoid-induced metabolic syndrome. Journal of Endocrinology 219(3): 231-241
Ferreira, M.d.R.; Lombardo, Y.B.; Chicco, A. 2010: β-Cell adaptation/dysfunction in an animal model of dyslipidemia and insulin resistance induced by the chronic administration of a sucrose-rich diet. Islets 2(6): 367-373
Ding, L.; Gysemans, C.; Mathieu, C. 2013: β-Cell differentiation and regeneration in type 1 diabetes. Diabetes Obesity and Metabolism 15(Suppl 3): 98-104
Jang, E.-H.; Kwon, H.-S. 2013: β-Cell dysfunction and insulin resistance in gestational glucose intolerance. Korean Journal of Internal Medicine 28(3): 294-296
Malin, S.K.; Finnegan, S.; Fealy, C.E.; Filion, J.; Rocco, M.B.; Kirwan, J.P. 2014: β-Cell dysfunction is associated with metabolic syndrome severity in adults. Metabolic Syndrome and Related Disorders 12(2): 79-85
Despa, F.; Berry, R.S. 2010: β-Cell dysfunction under hyperglycemic stress: a molecular model. Journal of Diabetes Science and Technology 4(6): 1447-1456
Arntfield, M.E.; van der Kooy, D. 2011: β-Cell evolution: How the pancreas borrowed from the brain: The shared toolbox of genes expressed by neural and pancreatic endocrine cells may reflect their evolutionary relationship. Bioessays: News and Reviews in Molecular Cellular and Developmental Biology 33(8): 582-587
Costes, S.; Langen, R.; Gurlo, T.; Matveyenko, A.V.; Butler, P.C. 2013: β-Cell failure in type 2 diabetes: a case of asking too much of too few?. Diabetes 62(2): 327-335
Leibowitz, G.; Kaiser, N.; Cerasi, E. 2011: β-Cell failure in type 2 diabetes. Journal of Diabetes Investigation 2(2): 82-91
Junqueira Vasques, A.C.; Pareja, J.é C.; de Oliveira, M.d.S.; Satake Novaes, F.; Miranda de Oliveira Lima, M.; Chaim, Él.A.; Piccinini, F.; Dalla Man, C.; Cobelli, C.; Geloneze, B. 2013: β-Cell function improvements in grade I/Ii obese subjects with type 2 diabetes 1 month after biliopancreatic diversion: results from modeling analyses of oral glucose tolerance tests and hyperglycemic clamp studies. Diabetes Care 36(12): 4117-4124
Ferrannini, E.; Mari, A. 2014: β-Cell function in type 2 diabetes. Metabolism, Clinical and Experimental 63(10): 1217-1227
Marselli, L.; Bugliani, M.; Suleiman, M.; Olimpico, F.; Masini, M.; Petrini, M.; Boggi, U.; Filipponi, F.; Syed, F.; Marchetti, P. 2013: β-Cell inflammation in human type 2 diabetes and the role of autophagy. Diabetes Obesity and Metabolism 15(Suppl 3): 130-136
Hughan, K.S.; Bonadonna, R.C.; Lee, S.; Michaliszyn, S.F.; Arslanian, S.A. 2013: β-Cell lipotoxicity after an overnight intravenous lipid challenge and free fatty acid elevation in African American versus American white overweight/obese adolescents. Journal of clinical endocrinology and metabolism 98(5): 2062-2069
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Blomberg, B.ör.A.; Eriksson, O.; Saboury, B.; Alavi, A. 2013: β-Cell mass imaging with DTBZ positron emission tomography: is it possible?. Molecular Imaging and Biology 15(1): 1-2
Iskovich, S.; Goldenberg-Cohen, N.; Stein, J.; Yaniv, I.; Farkas, D.L.; Askenasy, N. 2011: β-Cell neogenesis: experimental considerations in adult stem cell differentiation. Stem Cells and Development 20(4): 569-582
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Togashi, Y.; Shirakawa, J.; Orime, K.; Kaji, M.; Sakamoto, E.; Tajima, K.; Inoue, H.; Nakamura, A.; Tochino, Y.; Goshima, Y.; Shimomura, I.; Terauchi, Y. 2014: β-Cell proliferation after a partial pancreatectomy is independent of IRS-2 in mice. Endocrinology 155(5): 1643-1652
Milanesi, A.; Lee, J.-W.; Li, Z.; Da Sacco, S.; Villani, V.; Cervantes, V.; Perin, L.; Yu, J.S. 2012: β-Cell regeneration mediated by human bone marrow mesenchymal stem cells. Plos one 7(8): E42177
Lee, S.-H.; Hao, E.; Levine, F. 2011: β-Cell replication and islet neogenesis following partial pancreatectomy. Islets 3(4): 188-195
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Liu, X.; Turban, S.; Carter, R.N.; Ahmad, S.; Ramage, L.; Webster, S.P.; Walker, B.R.; Seckl, J.R.; Morton, N.M. 2014: β-Cell-Specific Glucocorticoid Reactivation Attenuates Inflammatory β-Cell Destruction. Frontiers in Endocrinology 5: 165
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Kaihara, K.A.; Dickson, L.M.; Jacobson, D.A.; Tamarina, N.; Roe, M.W.; Philipson, L.H.; Wicksteed, B. 2013: β-Cell-specific protein kinase a activation enhances the efficiency of glucose control by increasing acute-phase insulin secretion. Diabetes 62(5): 1527-1536
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Zhang, X.; Degenstein, L.; Cao, Y.; Stein, J.; Osei, K.; Wang, J. 2012: β-Cells with relative low HIMP1 overexpression levels in a transgenic mouse line enhance basal insulin production and hypoxia/hypoglycemia tolerance. Plos one 7(3): E34126
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Hamada-Kanazawa, M.; Narahara, M.; Takano, M.; Min, K.S.; Tanaka, K.; Miyake, M. 2011: β-Citryl-L-glutamate acts as an iron carrier to activate aconitase activity. Biological and Pharmaceutical Bulletin 34(9): 1455-1464
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Wang, Y.; Xu, D.; Tao, R.; Wang, H.; Wang, Q.; Shen, A. 2010: β1,4-Galactosyltransferase-I contributes to the inflammatory processes in synovial tissue of patients with rheumatoid arthritis. Inflammation Research: Official Journal of the European Histamine Research Society . 59(12): 1009-1018
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Qi, J.; Li, N.; Fan, K.; Yin, P.; Zhao, C.; Li, Z.; Lin, Y.; Wang, L.; Zha, X. 2014: β1,6 GlcNAc branches-modified PTPRT attenuates its activity and promotes cell migration by STAT3 pathway. Plos one 9(5): E98052
Lymperopoulos, A.; Negussie, S.; Walklett, K. 2013: β1- and α2C-adrenergic receptor polymorphisms and the antiarrhythmic effect of bucindolol in heart failure with reduced ejection fraction. Pharmacogenomics 14(13): 1545-1549
Laedermann, C.éd.J.; Syam, N.; Pertin, M.; Decosterd, I.; Abriel, H. 2013: β1- and β3- voltage-gated sodium channel subunits modulate cell surface expression and glycosylation of Nav1.7 in HEK293 cells. Frontiers in Cellular Neuroscience 7: 137
Rizzi, E.; Guimaraes, D.A.; Ceron, C.S.; Prado, C.M.; Pinheiro, L.C.; Martins-Oliveira, A.; Gerlach, R.F.; Tanus-Santos, J.E. 2014: β1-Adrenergic blockers exert antioxidant effects, reduce matrix metalloproteinase activity, and improve renovascular hypertension-induced cardiac hypertrophy. Free Radical Biology and Medicine 73: 308-317
Spindler, S.R.; Mote, P.L.; Li, R.; Dhahbi, J.M.; Yamakawa, A.; Flegal, J.M.; Jeske, D.R.; Li, R.; Lublin, A.L. 2013: β1-Adrenergic receptor blockade extends the life span of Drosophila and long-lived mice. Age 35(6): 2099-2109
Brender, S.; Barki-Harrington, L. 2014: β1-Adrenergic receptor downregulates the expression of cyclooxygenase-2. Biochemical and Biophysical Research Communications 451(2): 319-321
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Meitzen, J.; Luoma, J.I.; Stern, C.M.; Mermelstein, P.G. 2011: β1-Adrenergic receptors activate two distinct signaling pathways in striatal neurons. Journal of Neurochemistry 116(6): 984-995
Sterin-Borda, L.; Segovia, M.; Reina, S.; Borda, E. 2012: β1-Adrenoceptor antibody-induced increase in soluble CD40 ligand release in chronic periodontitis patients: role of prostaglandin E(2). Experimental Physiology 97(9): 1030-1039
Zhao, Y.; Huang, H.; Du, Y.; Li, X.; Lv, T.; Zhang, S.; Wei, H.; Shang, J.; Liu, P.; Liu, H. 2015: β1-Adrenoceptor autoantibodies affect action potential duration and delayed rectifier potassium currents in guinea pigs. Cardiovascular Toxicology 15(1): 1-9
Du, Y.; Yan, L.; Wang, J.; Zhan, W.; Song, K.; Han, X.; Li, X.; Cao, J.; Liu, H. 2012: β1-Adrenoceptor autoantibodies from DCM patients enhance the proliferation of T lymphocytes through the β1-AR/cAMP/PKA and p38 MAPK pathways. Plos one 7(12): E52911
Wang, Y.; Patel, D.; Wang, D.W.; Yan, J.T.; Hsia, H.H.; Liu, H.; Zhao, C.X.; Zuo, H.J.; Wang, D.W. 2013: β1-Adrenoceptor blocker aggravated ventricular arrhythmia. Pacing and Clinical Electrophysiology: Pace 36(11): 1348-1356
Berg, T. 2014: β1-Blockers Lower Norepinephrine Release by Inhibiting Presynaptic, Facilitating β1-Adrenoceptors in Normotensive and Hypertensive Rats. Frontiers in Neurology 5: 51
Pan, L.; North, H.A.; Sahni, V.; Jeong, S.J.; Mcguire, T.L.; Berns, E.J.; Stupp, S.I.; Kessler, J.A. 2014: β1-Integrin and integrin linked kinase regulate astrocytic differentiation of neural stem cells. Plos one 9(8): E104335
Ribeiro, A.; Balasubramanian, S.; Hughes, D.; Vargo, S.; Powell, E.M.; Leach, J.B. 2013: β1-Integrin cytoskeletal signaling regulates sensory neuron response to matrix dimensionality. Neuroscience 248: 67-78
Häuselmann, Séphanie.P.; Rosc-Schlüter, B.I.; Lorenz, V.; Plaisance, I.; Brink, M.; Pfister, O.; Kuster, G.M. 2011: β1-Integrin is up-regulated via Rac1-dependent reactive oxygen species as part of the hypertrophic cardiomyocyte response. Free Radical Biology and Medicine 51(3): 609-618
Nam, J.-M.; Ahmed, K.M.; Costes, S.; Zhang, H.; Onodera, Y.; Olshen, A.B.; Hatanaka, K.C.; Kinoshita, R.; Ishikawa, M.; Sabe, H.; Shirato, H.; Park, C.C. 2013: β1-Integrin via NF-κB signaling is essential for acquisition of invasiveness in a model of radiation treated in situ breast cancer. Breast Cancer Research: Bcr 15(4): R60
Coutellier, L.; Ardestani, P.M.; Shamloo, M. 2014: β1-adrenergic receptor activation enhances memory in Alzheimer's disease model. Annals of Clinical and Translational Neurology 1(5): 348-360
Cannavo, A.; Rengo, G.; Liccardo, D.; Pagano, G.; Zincarelli, C.; De Angelis, M.Carmen.; Puglia, R.; Di Pietro, E.; Rabinowitz, J.E.; Barone, M.Vittoria.; Cirillo, P.; Trimarco, B.; Palmer, T.M.; Ferrara, N.; Koch, W.J.; Leosco, D.; Rapacciuolo, A. 2013: β1-adrenergic receptor and sphingosine-1-phosphate receptor 1 (S1PR1) reciprocal downregulation influences cardiac hypertrophic response and progression to heart failure: protective role of S1PR1 cardiac gene therapy. Circulation 128(15): 1612-1622
Nakagawa, T.; Asahi, M. 2013: β1-adrenergic receptor recycles via a membranous organelle, recycling endosome, by binding with sorting nexin27. Journal of Membrane Biology 246(7): 571-579
Jiang, Y.; Zhang, Q.; Ye, E.-A.; Steinle, J.J. 2014: β1-adrenergic receptor stimulation by agonist Compound 49b restores insulin receptor signal transduction in vivo. Molecular Vision 20: 872-880
Wang, S.; Xu, D.; Wu, T.-T.; Guo, Y.; Chen, Y.-H.; Zou, J.-G. 2014: β1-adrenergic regulation of rapid component of delayed rectifier K+ currents in guinea-pig cardiac myocytes. Molecular Medicine Reports 9(5): 1923-1928
Silberman, Y.; Ariwodola, O.J.; Weiner, J.L. 2012: β1-adrenoceptor activation is required for ethanol enhancement of lateral paracapsular GABAergic synapses in the rat basolateral amygdala. Journal of Pharmacology and Experimental Therapeutics 343(2): 451-459
Wang, H.; Liu, J.; Liu, K.; Liu, Y.; Wang, Z.; Lou, Y.; Niu, Q.; Gu, W.; Wang, L.; Li, M.; Zhu, X.; Wen, S. 2013: β1-adrenoceptor gene Arg389Gly polymorphism and essential hypertension risk in general population: a meta-analysis. Molecular Biology Reports 40(6): 4055-4063
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Barkan, D.; Chambers, A.F. 2011: β1-integrin: a potential therapeutic target in the battle against cancer recurrence. Clinical Cancer Research: An Official Journal of the American Association for Cancer Research 17(23): 7219-7223
Lahlou, H.; Muller, W.J. 2011: β1-integrins signaling and mammary tumor progression in transgenic mouse models: implications for human breast cancer. Breast Cancer Research: Bcr 13(6): 229
Ghiasvand, M.; Rezayof, A.; Ahmadi, S.; Zarrindast, M.-R. 2011: β1-noradrenergic system of the central amygdala is involved in state-dependent memory induced by a cannabinoid agonist, WIN55,212-2, in rat. Behavioural Brain Research 225(1): 1-6
Vicco, M.H.; Pujato, N.; Bontempi, I.án.; Rodeles, L.; Marcipar, I.án.; Bottasso, O.A. 2014: β1-selective adrenoceptor antagonists increase plasma levels of anti-p2β antibodies and decrease cardiac involvement in chronic progressive Chagas heart disease. Canadian Journal of Cardiology 30(3): 332-337
De Arcangelis, V.; Serra, F.; Cogoni, C.; Vivarelli, E.; Monaco, L.; Naro, F. 2010: β1-syntrophin modulation by miR-222 in mdx mice. Plos one 5(8)
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Liu, J.; Milner, D.J.; Boppart, M.D.; Ross, R.S.; Kaufman, S.J. 2012: β1D chain increases α7β1 integrin and laminin and protects against sarcolemmal damage in mdx mice. Human Molecular Genetics 21(7): 1592-1603
Hernández-Ochoa, E.O.; Olojo, R.O.; Rebbeck, R.T.; Dulhunty, A.F.; Schneider, M.F. 2014: β1a490-508, a 19-residue peptide from C-terminal tail of Cav1.1 β1a subunit, potentiates voltage-dependent calcium release in adult skeletal muscle fibers. Biophysical Journal 106(3): 535-547
Pozzi, N.; Acquasaliente, L.; Frasson, R.; Cristiani, A.; Moro, S.; Banzato, A.; Pengo, V.; Scaglione, G.L.; Arcovito, A.; De Cristofaro, R.; De Filippis, V. 2013: β2 -Glycoprotein i binds to thrombin and selectively inhibits the enzyme procoagulant functions. Journal of Thrombosis and Haemostasis: Jth 11(6): 1093-1102
Thomsen, M.; Dahl, M.; Tybjaerg-Hansen, A.; Nordestgaard, B.G. 2012: β2 -adrenergic receptor Thr164IIe polymorphism, blood pressure and ischaemic heart disease in 66 750 individuals. Journal of Internal Medicine 271(3): 305-314
Murray, D.R.; Mummidi, S.; Valente, A.J.; Yoshida, T.; Somanna, N.K.; Delafontaine, P.; Dinarello, C.A.; Chandrasekar, B. 2012: β2 adrenergic activation induces the expression of IL-18 binding protein, a potent inhibitor of isoproterenol induced cardiomyocyte hypertrophy in vitro and myocardial hypertrophy in vivo. Journal of Molecular and Cellular Cardiology 52(1): 206-218
Kato, G.; Takahashi, K.; Tashiro, H.; Kurata, K.; Shirai, H.; Kimura, S.; Hayashi, S. 2014: β2 adrenergic agonist attenuates house dust mite-induced allergic airway inflammation through dendritic cells. Bmc Immunology 15: 39
Bubnell, J.; Pfister, P.; Sapar, M.L.; Rogers, M.E.; Feinstein, P. 2013: β2 adrenergic receptor fluorescent protein fusions traffic to the plasma membrane and retain functionality. Plos one 8(9): E74941
Vardeny, O.; Peppard, P.E.; Finn, L.A.; Faraco, J.H.; Mignot, E.; Hla, K.Mae. 2011: β2 adrenergic receptor polymorphisms and nocturnal blood pressure dipping status in the Wisconsin Sleep Cohort Study. Journal of the American Society of Hypertension: Jash 5(2): 114-122
Wang, D.; Fu, Q.; Zhou, Y.; Xu, B.; Shi, Q.; Igwe, B.; Matt, L.; Hell, J.W.; Wisely, E.V.; Oddo, S.; Xiang, Y.K. 2013: β2 adrenergic receptor, protein kinase a (PKA) and c-Jun N-terminal kinase (JNK) signaling pathways mediate tau pathology in Alzheimer disease models. Journal of Biological Chemistry 288(15): 10298-10307
Zlotnik, A.; Klin, Y.; Gruenbaum, B.F.; Gruenbaum, S.E.; Ohayon, S.; Leibowitz, A.; Kotz, R.; Dubilet, M.; Boyko, M.; Shapira, Y.; Teichberg, V.I. 2012: β2 adrenergic-mediated reduction of blood glutamate levels and improved neurological outcome after traumatic brain injury in rats. Journal of Neurosurgical Anesthesiology 24(1): 30-38
Singh, B.; Tiwari, A.K.; Singh, K.; Singh, S.K.; Ahmed, A.; Erwin, P.J.; Franco, P.M. 2014: β2 agonist for the treatment of acute lung injury: a systematic review and meta-analysis. Respiratory Care 59(2): 288-296
March, M.E.; Long, E.O. 2011: β2 integrin induces TCRζ-Syk-phospholipase C-γ phosphorylation and paxillin-dependent granule polarization in human NK cells. Journal of Immunology 186(5): 2998-3005
Raftery, M.J.; Lalwani, P.; Krautkrӓmer, E.; Peters, T.; Scharffetter-Kochanek, K.; Krüger, R.; Hofmann, J.ör.; Seeger, K.; Krüger, D.H.; Schönrich, G.ün. 2014: β2 integrin mediates hantavirus-induced release of neutrophil extracellular traps. Journal of Experimental Medicine 211(7): 1485-1497
Oellerich, T.; Oellerich, M.F.; Engelke, M.; Münch, S.; Mohr, S.; Nimz, M.; Hsiao, H.-H.; Corso, J.; Zhang, J.; Bohnenberger, H.; Berg, T.; Rieger, M.A.; Wienands, J.ür.; Bug, G.; Brandts, C.; Urlaub, H.; Serve, H. 2013: β2 integrin-derived signals induce cell survival and proliferation of AML blasts by activating a Syk/STAT signaling axis. Blood 121(19): 3889-3899 S1-66
Jerke, U.; Rolle, S.; Purfürst, B.; Luft, F.C.; Nauseef, W.M.; Kettritz, R. 2013: β2 integrin-mediated cell-cell contact transfers active myeloperoxidase from neutrophils to endothelial cells. Journal of Biological Chemistry 288(18): 12910-12919
Gorina, R.; Lyck, R.; Vestweber, D.; Engelhardt, B. 2014: β2 integrin-mediated crawling on endothelial ICAM-1 and ICAM-2 is a prerequisite for transcellular neutrophil diapedesis across the inflamed blood-brain barrier. Journal of Immunology 192(1): 324-337
Kim, G.-D.; Lee, S.E.; Yang, H.; Park, H.R.; Son, G.W.; Park, C.-S.; Park, Y.S. 2015: β2 integrins (CD11/18) are essential for the chemosensory adhesion and migration of polymorphonuclear leukocytes on bacterial cellulose. Journal of Biomedical Materials Research. Part a 103(5): 1809-1817
Hartung, J.E.; Ciszek, B.P.; Nackley, A.G. 2014: β2- and β3-adrenergic receptors drive COMT-dependent pain by increasing production of nitric oxide and cytokines. Pain 155(7): 1346-1355
Lomax, A.R.; Cheung, L.V.Y.; Tuohy, K.M.; Noakes, P.S.; Miles, E.A.; Calder, P.C. 2012: β2-1 Fructans have a bifidogenic effect in healthy middle-aged human subjects but do not alter immune responses examined in the absence of an in vivo immune challenge: results from a randomised controlled trial. British Journal of Nutrition 108(10): 1818-1828
Shan, T.; Ma, J.; Ma, Q.; Guo, K.; Guo, J.; Li, X.; Li, W.; Liu, J.; Huang, C.; Wang, F.; Wu, E. 2013: β2-AR-HIF-1α: a novel regulatory axis for stress-induced pancreatic tumor growth and angiogenesis. Current Molecular Medicine 13(6): 1023-1034
Shi, M.; Zhao, M.; Hu, M.; Liu, D.; Cao, H.; Qian, L.; Yang, Z.; Hu, Y.; Yu, M.; Yang, S.; Ma, Y.; Guo, N. 2013: β2-AR-induced Her2 transactivation mediated by Erbin confers protection from apoptosis in cardiomyocytes. International Journal of Cardiology 167(4): 1570-1577
Manni, M.; Granstein, R.D.; Maestroni, G. 2011: β2-Adrenergic agonists bias TLR-2 and NOD2 activated dendritic cells towards inducing an IL-17 immune response. Cytokine 55(3): 380-386
Caro, L.N.; Moreau, C.J.; Revilloud, J.; Vivaudou, M. 2011: β2-Adrenergic ion-channel coupled receptors as conformational motion detectors. Plos one 6(3): E18226
Szepietowska, B.; Zhu, W.; Sherwin, R.S. 2013: β2-Adrenergic receptor agonist administration promotes counter-regulatory responses and recovery from hypoglycaemia in rats. Diabetologia 56(11): 2517-2523
Mellios, N.; Woodson, J.; Garcia, R.I.; Crawford, B.; Sharma, J.; Sheridan, S.D.; Haggarty, S.J.; Sur, M. 2014: β2-Adrenergic receptor agonist ameliorates phenotypes and corrects microRNA-mediated IGF1 deficits in a mouse model of Rett syndrome. Proceedings of the National Academy of Sciences of the United States of America 111(27): 9947-9952
Chen, X.; Fahy, A.L.; Green, A.S.; Anderson, M.J.; Rhoads, R.P.; Limesand, S.W. 2010: β2-Adrenergic receptor desensitization in perirenal adipose tissue in fetuses and lambs with placental insufficiency-induced intrauterine growth restriction. Journal of Physiology 588(Part 18): 3539-3549
Ma, Y.; Nyman, J.S.; Tao, H.; Moss, H.H.; Yang, X.; Elefteriou, F. 2011: β2-Adrenergic receptor signaling in osteoblasts contributes to the catabolic effect of glucocorticoids on bone. Endocrinology 152(4): 1412-1422
LaRocca, T.J.; Schwarzkopf, M.; Altman, P.; Zhang, S.; Gupta, A.; Gomes, I.; Alvin, Z.; Champion, H.C.; Haddad, G.; Hajjar, R.J.; Devi, L.A.; Schecter, A.D.; Tarzami, S.T. 2010: β2-Adrenergic receptor signaling in the cardiac myocyte is modulated by interactions with CXCR4. Journal of Cardiovascular Pharmacology 56(5): 548-559
Horst, R.; Stanczak, P.; Stevens, R.C.; Wüthrich, K. 2013: β2-Adrenergic receptor solutions for structural biology analyzed with microscale NMR diffusion measurements. Angewandte Chemie 52(1): 331-335
Galasso, G.; De Rosa, R.; Ciccarelli, M.; Sorriento, D.; Del Giudice, C.; Strisciuglio, T.; De Biase, C.; Luciano, R.; Piccolo, R.; Pierri, A.; Di Gioia, G.; Prevete, N.; Trimarco, B.; Piscione, F.; Iaccarino, G. 2013: β2-Adrenergic receptor stimulation improves endothelial progenitor cell-mediated ischemic neoangiogenesis. Circulation Research 112(7): 1026-1034
Qian, H.; Matt, L.; Zhang, M.; Nguyen, M.; Patriarchi, T.; Koval, O.M.; Anderson, M.E.; He, K.; Lee, H.-K.; Hell, J.W. 2012: β2-Adrenergic receptor supports prolonged theta tetanus-induced LTP. Journal of Neurophysiology 107(10): 2703-2712
Nagai, H.; Kuwahira, I.; Schwenke, D.O.; Tsuchimochi, H.; Nara, A.; Inagaki, T.; Ogura, S.; Fujii, Y.; Umetani, K.; Shimosawa, T.; Yoshida, K-ichi.; Pearson, J.T.; Uemura, K.; Shirai, M. 2014: β2-Adrenergic receptor-dependent attenuation of hypoxic pulmonary vasoconstriction prevents progression of pulmonary arterial hypertension in intermittent hypoxic rats. Plos one 9(10): E110693
Chen, H.; Ma, N.; Xia, J.; Liu, J.; Xu, Z. 2012: β2-Adrenergic receptor-induced transactivation of epidermal growth factor receptor and platelet-derived growth factor receptor via Src kinase promotes rat cardiomyocyte survival. Cell Biology International 36(3): 237-244
Sironi, C.; Bodega, F.; Armilli, M.; Porta, C.; Zocchi, L.; Agostoni, E. 2010: β2-Adrenergic receptors and G-protein-coupled receptor kinase 2 in rabbit pleural mesothelium. Respiratory Physiology and Neurobiology 173(2): 189-191
Baloglu, E.; Reingruber, T.; Bärtsch, P.; Mairbäurl, H. 2011: β2-Adrenergics in hypoxia desensitize receptors but blunt inhibition of reabsorption in rat lungs. American Journal of Respiratory Cell and Molecular Biology 45(5): 1059-1068
Holden, N.S.; Bell, M.J.; Rider, C.F.; King, E.M.; Gaunt, D.D.; Leigh, R.; Johnson, M.; Siderovski, D.P.; Heximer, S.P.; Giembycz, M.A.; Newton, R. 2011: β2-Adrenoceptor agonist-induced RGS2 expression is a genomic mechanism of bronchoprotection that is enhanced by glucocorticoids. Proceedings of the National Academy of Sciences of the United States of America 108(49): 19713-19718
Thanawala, V.J.; Forkuo, G.S.; Al-Sawalha, N.; Azzegagh, Z.; Nguyen, L.P.; Eriksen, J.L.; Tuvim, M.J.; Lowder, T.W.; Dickey, B.F.; Knoll, B.J.; Walker, J.K.L.; Bond, R.A. 2013: β2-Adrenoceptor agonists are required for development of the asthma phenotype in a murine model. American Journal of Respiratory Cell and Molecular Biology 48(2): 220-229
Peterson, Y.K.; Cameron, R.B.; Wills, L.P.; Trager, R.E.; Lindsey, C.C.; Beeson, C.C.; Schnellmann, R.G. 2013: β2-Adrenoceptor agonists in the regulation of mitochondrial biogenesis. Bioorganic and Medicinal Chemistry Letters 23(19): 5376-5381
Frey, U.H.; Karlik, J.; Herbstreit, F.; Peters, J. 2014: β2-Adrenoceptor gene variants affect vasopressor requirements in patients after thoracic epidural anaesthesia. British Journal of Anaesthesia 112(3): 477-484
Zhou, Y.; Zhang, Y.; Guo, Y.; Zhang, Y.; Xu, M.; He, B. 2014: β2-Adrenoceptor involved in smoking-induced airway mucus hypersecretion through β-arrestin-dependent signaling. Plos one 9(6): E97788
Binaei, S.; Rashed, S.M.; Christensen, M.L. 2003: β2-Adrenoreceptor Polymorphisms in Asthmatic Patients. Journal of Pediatric Pharmacology and Therapeutics: Jppt: the Official Journal of Ppag 8(1): 22-28
Hervé, J.; Dubreil, L.; Tardif, V.; Terme, M.; Pogu, S.; Anegon, I.; Rozec, B.; Gauthier, C.; Bach, J-Marie.; Blancou, P. 2013: β2-Adrenoreceptor agonist inhibits antigen cross-presentation by dendritic cells. Journal of Immunology 190(7): 3163-3171
Vida, G.; Peña, G.; Kanashiro, A.; Thompson-Bonilla, M.del.Rocio.; Palange, D.; Deitch, E.A.; Ulloa, L. 2011: β2-Adrenoreceptors of regulatory lymphocytes are essential for vagal neuromodulation of the innate immune system. Faseb Journal: Official Publication of the Federation of American Societies for Experimental Biology 25(12): 4476-4485
Trian, T.; Burgess, J.K.; Niimi, K.; Moir, L.M.; Ge, Q.; Berger, P.; Liggett, S.B.; Black, J.L.; Oliver, B.G. 2011: β2-Agonist induced cAMP is decreased in asthmatic airway smooth muscle due to increased PDE4D. Plos one 6(5): E20000
Nie, Z.; Fryer, A.D.; Jacoby, D.B. 2012: β2-Agonists inhibit TNF-α-induced ICAM-1 expression in human airway parasympathetic neurons. Plos one 7(9): E44780
Niimi, K.; Ge, Q.; Moir, L.M.; Ammit, A.J.; Trian, T.; Burgess, J.K.; Black, J.L.; Oliver, B.G.G. 2012: β2-Agonists upregulate PDE4 mRNA but not protein or activity in human airway smooth muscle cells from asthmatic and nonasthmatic volunteers. American Journal of Physiology. Lung Cellular and Molecular Physiology 302(3): L334-L342
Blank, M.; Baraam, L.; Eisenstein, M.; Fridkin, M.; Dardik, R.; Heldman, Y.; Katchalski-Katzir, E.; Shoenfeld, Y. 2011: β2-Glycoprotein-i based peptide regulate endothelial-cells tissue-factor expression via negative regulation of pGSK3β expression and reduces experimental-antiphospholipid-syndrome. Journal of Autoimmunity 37(1): 8-17
Goodchild, S.C.; Sheynis, T.; Thompson, R.; Tipping, K.W.; Xue, W.-F.; Ranson, N.A.; Beales, P.A.; Hewitt, E.W.; Radford, S.E. 2014: β2-Microglobulin amyloid fibril-induced membrane disruption is enhanced by endosomal lipids and acidic pH. Plos one 9(8): E104492
Raikou, V.D.; Tentolouris, N.; Kyriaki, D.; Evaggelatou, A.; Tzanatou, H. 2011: β2-Microglobulin, pulse pressure and metabolic alterations in hemodialysis patients. Nephron. Clinical Practice 117(3): C237-C245
Schubert, S.; Knoch, K.-P.; Ouwendijk, J.; Mohammed, S.; Bodrov, Y.; Jäger, M.; Altkrüger, A.; Wegbrod, C.; Adams, M.E.; Kim, Y.; Froehner, S.C.; Jensen, O.N.; Kalaidzidis, Y.; Solimena, M. 2010: β2-Syntrophin is a Cdk5 substrate that restrains the motility of insulin secretory granules. Plos one 5(9): E12929
Zhang, D.; Ma, Q.-Y.; Hu, H.-T.; Zhang, M. 2010: β2-adrenergic antagonists suppress pancreatic cancer cell invasion by inhibiting CREB, NFκB and AP-1. Cancer Biology and Therapy 10(1): 19-29
Thomsen, M.; Dahl, M.; Tybjærg-Hansen, A.; Nordestgaard, B.ør.G. 2012: β2-adrenergic receptor Thr164Ile polymorphism, obesity, and diabetes: comparison with FTO, MC4R, and TMEM18 polymorphisms in more than 64,000 individuals. Journal of Clinical Endocrinology and Metabolism 97(6): E1074-E1079
Qian, L.; Wu, H-ming.; Chen, S-Heng.; Zhang, D.; Ali, S.F.; Peterson, L.; Wilson, B.; Lu, R-Band.; Hong, J-Shyong.; Flood, P.M. 2011: β2-adrenergic receptor activation prevents rodent dopaminergic neurotoxicity by inhibiting microglia via a novel signaling pathway. Journal of Immunology 186(7): 4443-4454
Goncharova, E.A.; Goncharov, D.A.; Zhao, H.; Penn, R.B.; Krymskaya, V.P.; Panettieri, R.A. 2012: β2-adrenergic receptor agonists modulate human airway smooth muscle cell migration via vasodilator-stimulated phosphoprotein. American Journal of Respiratory Cell and Molecular Biology 46(1): 48-54
Dong, J.-h.; Chen, X.; Cui, M.; Yu, X.; Pang, Q.; Sun, J.-p. 2012: β2-adrenergic receptor and astrocyte glucose metabolism. Journal of Molecular Neuroscience: Mn 48(2): 456-463
Pei, Y.; Bai, X.; Dong, H.; Han, H.; Zhang, Z.; Dong, H.; Hou, L.; Xiong, L. 2011: β2-adrenergic receptor antagonist butoxamine partly abolishes the protection of 100% oxygen treatment against zymosan-induced generalized inflammation in mice. Shock 36(3): 272-278
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