• Title of article

    Protection of isolated rat heart against the Ca2+ paradox. Are gap junction channels involved?

  • Author/Authors

    F. Diederichs، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 1995
  • Pages
    9
  • From page
    1301
  • To page
    1309
  • Abstract
    Enzyme release from isolated Langendorff-perfused rat hearts was studied under various protective conditions against the Ca2+ paradox. In addition sarcosolic free cation concentrations and the membrane potential were measured employing ion-selective microelectrode techniques during Ca2+-free perfusion. Low temperature (18°C), low pH (6.5 or 6.1), and polyethylene glycol (9%) during Ca2+-free perfusion all protected isolated hearts against the Ca2+ paradox. Protection could only be afforded if the protective agent was continuously present from the beginning of the Ca2+-free perfusion period. A 10 min “normal” Ca2+-free pre-perfusion was sufficient to abolish the protective potency of the subsequent perfusion phase in the presence of the protective agent. The gap junction channel blocker heptanol (2 mmol/l) markedly decreased enzyme release during re-perfusion, but did not afford protection. Sarcosolic free cation concentrations were measured during Ca2+-free acidic perfusion. [Na+]l was markedly increased to about 44 mmol/l without predisposing to cell damage under these conditions. A marked reduction of cell damage was also afforded under conditions of hypoxia during Ca2+- and substrate-free perfusion. Acidosis (pHe=6.5) under these conditions prevented a lethal increase of [Ca2+]i (2 μmol/l) and partially preserved a negative membrane potential. It is concluded that the predisposition to the Ca2+ paradox is produced by a permeabilisation of gap junction channels at low [Ca2+]e and that upon re-elevation of [Ca2+]e a serious Ca2+ influx proceeds through these leaks.
  • Keywords
    polyethylene glycol , Heptanol , intracellular Ca2+ , Intracellulgr Na+ , intracellular pH , Ca 2÷ depletion. , Ca 2+ Paradox , hypothermia , acidosis
  • Journal title
    Journal of Molecular and Cellular Cardiology
  • Serial Year
    1995
  • Journal title
    Journal of Molecular and Cellular Cardiology
  • Record number

    525248