SEARCH

SEARCH BY CITATION

References

  • ASKENASY, N., VIVI, A., TASSINI, M. & NAVON, G. (1996). The relation between cellular sodium, pH and volumes and the activity of Na/H antiport during hypothermic ischemia: multinuclear NMR studies of rat hearts. J. Mol. Cell. Cardiol., 28, 589601.
  • AVKIRAN, M. (1999a). Protection of the myocardium during ischemia and reperfusion: Na+/H+ exchange inhibition versus ischemic preconditioning. Circulation, 100, 24692472.
  • AVKIRAN, M. (1999b). Rational basis for use of sodium-hydrogen exchange inhibitors in myocardial ischemia. Am. J. Cardiol., 83, 10G18G.
  • AVKIRAN, M. & YOKOYAMA, H. (2000). Adenosine A1 receptor stimulation inhibits α1-adrenergic activation of the cardiac sarcolemmal Na+/H+ exchanger. Brit. J. Pharmacol., 131, 659662.
  • BAUMGARTH, M., BEIER, N. & GERICKE, R. (1998). Bicyclic acylguanidine Na+/H+ antiporter inhibitors. J. Med. Chem., 41, 37363747.
  • BRIGHT, C.M. & ELLIS, D. (1994). Hypoxia-induced intracellular acidification in isolated sheep heart Purkinje fibres and the effects of temperature. J. Mol. Cell. Cardiol., 26, 463469.
  • CH'EN, F.F.-T. & VAUGHAN-JONES, R.D. (2000). Temperature dependence of cardiac Na+-H+ exchange and Na+-HCO3 cotransport. J. Physiol., 527.P, 66P.
  • DURAND, T., VIDAL, G., CANIONI, P. & GALLIS, J.L. (1998). Cytosolic pH variations in perfused rat liver at 4 C: role of intracellular buffering power. Cryobiology, 36, 269278.
  • ELLIS, D. & MACLEOD, K.T. (1985). Sodium-dependent control of intracellular pH in Purkinje fibres of sheep heart. J. Physiol., 359, 81105.
  • FUKUNAMI, M. & HEARSE, D.J. (1985). Temperature-dependency of nifedipine as a protective agent during cardioplegia in the rat. Cardio. Res., 19, 95103.
  • GRABER, M., BARRY, C., DIPAOLA, J. & HASAGAWA, A. (1992). Intracellular pH in OK cells: effects of temperature on cell pH. Am. J. Physiol., 262, F723F730.
  • GRUWEL, M.L., KUZIO, B., DESLAURIERS, R. & KUPRIYANOV, V.V. (1998). Observation of two inorganic phosphate NMR resonances in the perfused hypothermic rat heart. Cryobiology, 37, 355361.
  • GUMINA, R.J., BUERGER, E., EICKMEIER, C., MOORE, J., DAEMMGEN, J. & GROSS, G.J. (1999). Inhibition of the Na+/H+ exchanger confers greater cardioprotection against 90 minutes of myocardial ischemia than ischemic preconditioning in dogs. Circulation, 100, 25192526.
  • GUNASEGARAM, S., HAWORTH, R.S., HEARSE, D.J. & AVKIRAN, M. (1999). Regulation of sarcolemmal Na+/H+ exchanger activity by angiotensin II in adult rat ventricular myocytes: opposing actions via AT1 versus AT2 receptors. Circul. Res., 85, 919930.
  • HAWORTH, R.S., SINNETT-SMITH, J., ROZENGURT, E. & AVKIRAN, M. (1999). Protein kinase D inhibits plasma membrane Na+/H+ exchanger activity. Am. J. Physiol. Cell. Physiol., 277, C1202C1209.
  • HAWORTH, R.S., YASUTAKE, M., BROOKS, G. & AVKIRAN, M. (1997). Cardiac Na+/H+ exchanger during postnatal development in the rat: changes in mRNA expression and sarcolemmal activity. J. Mol. Cell. Cardiol., 29, 321332.
  • HEARSE, D.J., YAMAMOTO, F. & SHATTOCK, M.J. (1984). Calcium antagonists and hypothermia: the temperature dependency of the negative inotropic and anti-ischemic properties of verapamil in the isolated rat heart. Circulation, 70, I54I64.
  • KARMAZYN, M., GAN, X.T., HUMPHREYS, R.A., YOSHIDA, H. & KUSUMOTO, K. (1999). The myocardial Na+-H+ exchange: structure, regulation, and its role in heart disease. Circul. Res., 85, 777786.
  • KIM, Y.L., HERIJGERS, P., LAYCOCK, S.K., VAN LOMMEL, A., VERBEKEN, E. & FLAMENG, W. (1998a). Na+/H+ exchange inhibition improves long-term myocardial preservation. Ann. Thor. Surg., 66, 436442.
  • KIM, Y.L., HERIJGERS, P., VAN LOMMEL, A., VERBEKEN, E. & FLAMENG, W. (1998b). Na+/H+ exchange inhibition improves post-transplant myocardial compliance in 4-hour stored donor hearts. Cardio. Surg., 6, 6775.
  • KNERR, S.M.M. & LIEBERMAN, M. (1993). Ion transport during hypothermia in cultured heart cells: implications for protection of the immature myocardium. J. Mol. Cell. Cardiol., 25, 277288.
  • LEEM, C.H., LAGADIC-GOSSMANN, D. & VAUGHAN-JONES, R.D. (1999). Characterization of intracellular pH regulation in the guinea-pig ventricular myocyte. J. Physiol., 517, 159180.
  • LOH, S.-H., SUN, B. & VAUGHAN-JONES, R.D. (1996). Effect of Hoe 694, a novel Na+-H+ exchange inhibitor, on intracellular pH regulation in the guinea-pig ventricular myocyte. Brit. J. Pharmacol., 118, 19051912.
  • MOOR, A.N. & FLIEGEL, L. (1999). Protein kinase-mediated regulation of the Na+/H+exchanger in the rat myocardium by mitogen-activated protein kinase-dependent pathways. J. Biol. Chem., 274, 2298522992.
  • MYERS, M.L. & KARMAZYN, M. (1996). Improved cardiac function after prolonged hypothermic ischemia with the Na+/H+ exchange inhibitor HOE 694. Ann. Thor. Surg., 61, 14001406.
  • PLESNILA, N., MÜLLER, E., GURETZKI, S., RINGEL, F., STAUB, F. & BAETHMANN, A. (2000). Effect of hypothermia on the volume of rat glial cells. J. Physiol., 523.1, 155162.
  • ROOS, A. & BORON, W.F. (1981). Intracellular pH. Physiol. Rev., 61, 296434.
  • SHIPOLINI, A.R., GALIÑANES, M., EDMONDSON, S.J., HEARSE, D.J. & AVKIRAN, M. (1997a). Na+/H+ exchanger inhibitor HOE-642 improves cardioplegic myocardial preservation under both normothermic and hypothermic conditions. Circulation, 96, II266II273.
  • SHIPOLINI, A.R., YOKOYAMA, H., GALIÑANES, M., EDMONDSON, S.J., HEARSE, D.J. & AVKIRAN, M. (1997b). Na+/H+ exchanger activity does not contribute to protection by ischemic preconditioning in the isolated rat heart. Circulation, 96, 36173625.
  • SNABAITIS, A.K., YOKOYAMA, H. & AVKIRAN, M. (2000). Roles of mitogen-activated protein kinases and protein kinase C in α1A-adrenoceptor-mediated stimulation of the sarcolemmal Na+/H+ exchanger. Circul. Res., 86, 214220.
  • SWAIN, J.A., MCDONALD, T.J., ROBBINS, R.C. & BALABAN, R.S. (1991). Relationship of cerebral and myocardial intracellular pH to blood pH during hypothermia. Am. J. Physiol. Heart. Circ. Physiol., 260, H1640H1644.
  • THÉROUX, P., CHAITMAN, B.R., DANCHIN, N., ERHARDT, L.R.W., MEINERTZ, T., SCHROEDER, J.S., TOGNONI, G., WHITE, H.D., WILLERSON, J.T. & JESSEL, A. (2000). Inhibition of the sodium-hydrogen exchanger with cariporide to prevent myocardial infarction in high-risk ischemic situations: main results of the GUARDIAN trial. Circulation, 102, 30323038.
  • WAKABAYASHI, S., SHIGEKAWA, M. & POUYSSÉGUR, J. (1997). Molecular physiology of vertebrate Na+/H+ exchangers. Physiol. Rev., 77, 5174.
  • WU, M.L., TSAI, M.L. & TSENG, Y.Z. (1994). DIDS-sensitive pHi regulation in single rat cardiac myocytes in nominally HCO3-free conditions. Circul. Res., 75, 123132.
  • YAMAUCHI, T., ICHIKAWA, H., SAWA, Y., FUKUSHIMA, N., KAGISAKI, K., MAEDA, K., MATSUDA, H. & SHIRAKURA, R. (1997). The contribution of Na+/H+ exchange to ischemia-reperfusion injury after hypothermic cardioplegic arrest. Ann. Thor. Surg., 63, 11071112.
  • YASUTAKE, M., HAWORTH, R.S., KING, A. & AVKIRAN, M. (1996). Thrombin activates the sarcolemmal Na+/H+ exchanger: evidence for a receptor-mediated mechanism involving protein kinase C. Circul. Res., 79, 705715.
  • YOKOYAMA, H., GUNASEGARAM, S., HARDING, S.E. & AVKIRAN, M. (2000). Sarcolemmal Na+/H+ exchanger activity and expression in human ventricular myocardium. J. Am. Coll. Cardiol., 36, 534540.
  • YOKOYAMA, H., YASUTAKE, M. & AVKIRAN, M. (1998). α1-Adrenergic stimulation of sarcolemmal Na+/H+ exchanger activity in rat ventricular myocytes: evidence for selective mediation by the α1A-adrenoceptor subtype. Circul. Res., 82, 10781085.
  • ZHOU, Z. & WILLIS, J.S. (1989). Differential effects of cooling in hibernator and nonhibernator cells: Na permeation. Am. J. Physiol., 256, R49R55.