Gap junctional conductance between pairs of ventricular myocytes is modulated synergistically by H+ and Ca++.

Author:

White R L1,Doeller J E1,Verselis V K1,Wittenberg B A1

Affiliation:

1. Department of Neuroscience, Albert Einstein College of Medicine, Bronx, New York.

Abstract

Gap junctional conductance (gj) between cardiac ventricular myocyte pairs is rapidly, substantially, and reversibly reduced by sarcoplasmic acidification with CO2 when extracellular calcium activity is near physiological levels (1.0 mM CaCl2 added; 470 microM Ca++). Intracellular calcium concentration (Cai), measured by fura-2 fluorescence in cell suspensions, was 148 +/- 39 nM (+/- SEM, n = 6) and intracellular pH (pHi), measured with intracellular ion-selective microelectrodes, was 7.05 +/- 0.02 (n = 5) in cell pair preparations bathed in medium equilibrated with air. Cai increased to 515 +/- 12 nM (n = 6) and pHi decreased to 5.9-6.0 in medium equilibrated with 100% CO2. In air-equilibrated low-calcium medium (no added CaCl2; 2-5 microM Ca++), Cai was 61 +/- 9 nM (n = 13) at pHi 7.1. Cai increased to only 243 +/- 42 nM (n = 9) at pHi 6.0 in CO2-equilibrated low-calcium medium. Junctional conductance, in most cell pairs, was not substantially reduced by acidification to pHi 5.9-6.0 in low-calcium medium. Cell pairs could still be electrically uncoupled reversibly by the addition of 100 microM octanol, an agent which does not significantly affect Cai. In low-calcium low-sodium medium (choline substitution for all but 13 mM sodium), acidification with CO2 increased Cai to 425 +/- 35 nM (n = 11) at pHi 5.9-6.0 and gj was reduced to near zero. Junctional conductance could also be reduced to near zero at pHi 6.0 in low-calcium medium containing the calcium ionophore, A23187. The addition of the calcium ionophore did not uncouple cell pairs in the absence of acidification. In contrast, acidification did not substantially reduce gj when intracellular calcium was low. Increasing intracellular calcium did not appreciably reduce gj at pHi 7.0. These results suggest that, although other factors may play a role, H+ and Ca++ act synergistically to decrease gj.

Publisher

Rockefeller University Press

Subject

Physiology

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