• Title of article

    Developmental Changes in the Effects of pH on Contraction and Ca2+Current in Rabbit Heart

  • Author/Authors

    Fuhua Chen، نويسنده , , Glenn T. Wetzel، نويسنده , , William F. Friedman، نويسنده , , Thomas S. Klitzner، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 1996
  • Pages
    8
  • From page
    635
  • To page
    642
  • Abstract
    Protons inhibit Ca2+current and contraction in heart muscle. The present study compares the effects of lowering the pH of the bath solution on single-cell contraction, action potential configuration and Ca2+currents between neonatal and adult rabbit hearts. We found that a reduction of extracellular pH from 7.3 to 6.3 decreased cell contraction amplitude to 84.3% of control in isolated neonatal myocytes. A comparable change in extracellular pH resulted in a decrease in cell contraction to 56.2% of control in adult cells. Similarly, tension generation in intact neonatal papillary muscles was less sensitive to a decrease in external pH as compared to papillary muscles from adult animals. In addition, acidosis caused a less pronounced inhibition of Ca2+current in neonatal cells than in adult cells (85±4%v62±4% of control, pH=6.3,P<0.001; 63±5%v32±5% of control, pH=5.8,P<0.001). Thus, the effect of external acidosis on myocardial contractility is commensurate with the effect on trans-sarcolemmal Ca2+current. The membrane potential at which peak Ca2+current occurred was not altered by low pH in neonatal cells, but was shifted toward positive potentials by 17.7 mV in adult myocytes. Further, low external pH solution reduced Ca2+current conductance more in adult cells than in neonatal cells. Moreover, action potential configuration in neonatal cells was altered less by acidosis as compared with adult cells. These findings may help explain the greater resistance of neonatal hearts to extracellular acidosis.
  • Keywords
    calcium current , acidosis , Cardiac contraction , ischemia , Excitation–contraction coupling
  • Journal title
    Journal of Molecular and Cellular Cardiology
  • Serial Year
    1996
  • Journal title
    Journal of Molecular and Cellular Cardiology
  • Record number

    525396