Modulation of hormone-induced calcium oscillations by intracellular pH in rat hepatocytes.

Abstract

Single isolated rat hepatocytes were used to investigate the influence of intracellular pH (pHi) on hormone-induced cytosolic Ca2+ oscillations, using videofluorescence microscopy. Although pHi did not vary after alpha-adrenergic stimulation, manipulations of pHi induced pronounced alterations in the frequency of oscillations. Increasing the resting pHi with ammonium chloride (5-20 mM), trimethylammonium (2-10 mM), or triethylammonium (1.2-8 mM) reduced the frequency of oscillations. A change in pHi of > 0.25 was sufficient to reversibly inhibit oscillations. This effect could be overcome by increasing the agonist concentration or by adding 8-bromoadenosine 3',5'-cyclic monophosphate, an agent known to potentiate the alpha-adrenergic response. Cellular acidification, obtained by the ammonium prepulse method as well as by application of acetate or the ionophore nigericin, in the continuous presence of agonist was accompanied by a modest frequency increase of the oscillations, leading in some cases to an overstimulated state. This study indicates that pHi, within a range of values expected to occur in vivo (0.1-0.2 pH units), exerts a chronotropic effect on phenylephrine-induced Ca2+ oscillations. In contrast, oscillations induced by ADP or vasopressin were pHi invariant.