Reverse operation of the sodium calcium exchanger mediates calcium influx during anoxia in mammalian cns white matter
Stys, P.K.; Waxman, S.G.; Ransom, B.R.
Blaustein, M P , R Dipolo And J P Reeves (Ed ) Annals Of The New York Academy Of Sciences, Vol 639 Sodium-Calcium Exchange; Second International Conference, Baltimore, Maryland, Usa, April 7-11, Xiv+671p New York Academy Of Sciences: New York, New York, Usa Illus 328-332
1991
Accession: 033232661
Full-Text Article emailed within 1 workday
Payments are secure & encrypted
References
Stys, P.K.; Waxman, S.G.; Ransom, B.R. 1991: Reverse operation of the Na(+)-Ca2+ exchanger mediates Ca2+ influx during anoxia in mammalian CNS white matter Annals of the new York Academy of Sciences 639: 328-332Stys, P.K.; Waxman, S.G.; Ransom, B.R. 1991: Na(+)-Ca2+ exchanger mediates Ca2+ influx during anoxia in mammalian central nervous system white matter Annals of Neurology 30(3): 375-380
Janczewski, A.M.; Spurgeon, H.A.; Lakatta, E.G. 1997: Sarcoplasmic reticulum directly buffers calcium influx via the sarcolemmal sodium-calcium exchanger and rapidly modulates its impact on calcium release in cardiac myocytes Biophysical Journal 72(2 Part 2): A163
Fang, Y.; Reeves, J.P. 1997: Regulation of sodium-dependent barium influx by cytosolic calcium in transfected CHO cells expressing the cardiac sodium-calcium exchanger Biophysical Journal 72(2 Part 2): A64
Callewaert, G.; Cleemann, L.; Monrad, M. 1989: Caffeine induced calcium release stimulates efflux of calcium via the sodium calcium exchanger in single mammalian cardiac myocytes Biophysical Journal 55(2 Part 2): 411A
Chernaya, G.; Vázquez, M.; Reeves, J.P. 1996: Sodium-calcium exchange and store-dependent calcium influx in transfected chinese hamster ovary cells expressing the bovine cardiac sodium-calcium exchanger. Acceleration of exchange activity in thapsigargin-treated cells Journal of Biological Chemistry 271(10): 5378-5385
Condrescu, M.; Fang, Y.; Reeves, J.P. 1997: Calcium influx mediated by the sodium-calcium exchanger is inhibited by calyculin A Biophysical Journal 72(2 Part 2): A64
Li, P.-C.; Yang, Y.-C.; Hwang, G.-Y.; Kao, L.-S.; Lin, C.-Y. 2014: Inhibition of reverse-mode sodium-calcium exchanger activity and apoptosis by levosimendan in human cardiomyocyte progenitor cell-derived cardiomyocytes after anoxia and reoxygenation Plos one 9(2): E85909
Uchitel, O.D.; Protti, D.A.; Sanchez, V.; Cherksey, B.D.; Sugimori, M.; Llinás, R. 1992: P-type voltage-dependent calcium channel mediates presynaptic calcium influx and transmitter release in mammalian synapses Proceedings of the National Academy of Sciences of the United States of America 89(8): 3330-3333
Stys, P.K.; Ransom, B.R.; Waxman, S.G. 1990: Are sodium channels or sodium calcium exchange involved in mediating anoxic injury in mammalian central white matter Society for Neuroscience Abstracts 16(2): 934
Moreau, R.; Simoneau, L.; Lafond, J. 2003: Calcium fluxes in human trophoblast (BeWo) cells: calcium channels, calcium-ATPase, and sodium-calcium exchanger expression Molecular Reproduction and Development 64(2): 189-198
Snowdowne, K.W.; Borle, A.B. 1985: Effects of low extracellular sodium on cytosolic ionized calcium sodium calcium exchange as a major calcium influx pathway in kidney cells Journal of Biological Chemistry 260(28): 14998-15007
Kofuji, P.; Hadley, R., W.; Kieval, R., S.; Lederer, W.J.; Schulze, D., H. 1992: Expression of the sodium, calcium exchanger in a diverse tissues: A study using the cloned human cardiac sodium, calcium exchanger American Journal of Physiology 263(6 Part 1): C1241-C1249
D.Polo, R. 1978: The effect of calcium ion influx sodium ion influx and atp on the calcium influx in dialyzed squid axons Biophysical Journal 21(3): 186A
Condrescu, M.; Chernaya, G.; Aceto, J.F.; Gardner, J.P.; Reeves, J.P. 1994: Regulation of sodium-calcium exchange by cytosolic calcium in CHO cells transfected with the bovine cardiac sodium-calcium exchanger Biophysical Journal 66(2 Part 2): A332
Nabauer, M.; Callewaert, G.; Cleemann, L.; Morad, M. 1989: Depolarization induced calcium release in single mammalian cardiac myocytes requires calcium influx through the calcium channel Biophysical Journal 55(2 Part 2): 488A
Chunying, W.; Yang, P. 2002: Quantitative study on La3+ influx mediated by sodium-calcium exchanger in human lymphocytes Science in China Series B: Chemistry 45(6): 586-597
Kaese, S.; Bögeholz, N.; Pauls, P.; Dechering, D.; Olligs, J.; Kölker, K.; Badawi, S.; Frommeyer, G.; Pott, C.; Eckardt, L. 2017: Increased sodium/calcium exchanger activity enhances beta-adrenergic-mediated increase in heart rate: Whole-heart study in a homozygous sodium/calcium exchanger overexpressor mouse model Heart Rhythm 14(8): 1247-1253
Condrescu, M.; Reeves, J.P. 1996: Calcium influx by sodium-calcium exchange is tightly linked to mitochondrial calcium accumulation in transfected CHO cells Biophysical Journal 70(2 Part 2): A205
Torreano, P.J.; Cohan, C.S. 2003: Calcium and voltage dependent inactivation of sodium and calcium currents limits calcium influx in Helisoma neurons Journal of Neurobiology 54(3): 439-456