Enhanced responsiveness of rat cardiac myocytes to muscarinic cholinergic stimulation during chemically-induced hypoxia

Abstract

In contrast to adrenaline, exogenously administrated cholinergic agonist, carbachol have very little effect on the contractility of rat cardiac myocytes, unless its contractile has been increased by adrenergic agonist. This interaction between the muscarinic and adrenergic pathways has been suggested to be the major means by which muscarinic agonist alters adrenergic function. When the cardiac myocytes were incubated in the medium contained the mitochondria1 respiratory inhibitor potassium cyanide (chemically-induced hypoxia) the spontaneous contractility was ceased. The contractility partly recovered when the cells were exposed to adrenergicstimulation. We showed that during chemical hypoxia, in which cellular ATP is decreased (37 percent of control), the responsiveness of myocytes to muscarinic cholinergic stimulation significantly increase. Contraction of myocytes, stimulated by adrenaline was totally inhibited by 10(-4)M of carbachol in control cells and 5 x 10(-6) of carbachol in cells with chemically-induced hypoxia. This increase in physiological response to muscarinic stimulation was associated with an increase of muscarinic receptors (630 percent). The results support the hypothesis that in ischaemic/hypoxic myocardium the role of cholinergic system may be more important than previously assumed.