Possible role of phospholipase C in the induction of Ca2+-paradox in rat heart

In order to investigate the involvement of phosphoinositide-specific phospholipase C (PLC), an enzyme associated with phosphoinositide signal transduction pathway, for the occurrence of Ca²⁺-paradox (loss of contractile activity associated with contracture), rat hearts perfused with Ca²⁺-free medium (1 to 5 min) were reperfused (5 to 10 min) with medium containing 1.25 mM Ca²⁺. Crude membranes isolated from hearts perfused with Ca²⁺-free medium exhibited a significantly increased activity of PLC, whereas normal activity was detected in hearts reperfused with Ca²⁺-containing medium. A significant rise in PLC activity was observed at 1 min of Ca²⁺-free perfusion; maximal increase was seen at 4 min of Ca²⁺-free perfusion. Minimal concentration of Ca²⁺ in the perfusion medium required for showing an increase in PLC activity was 10 M, whereas that required for the occurrence of Ca²⁺-paradoxic changes in heart function upon reperfusion was 50M. Perfusion of the hearts with Ca²⁺-free medium in the presence of low Na⁺ or at low temperature, which prevents the occurrence of Ca²⁺-paradox upon reperfusion, did not prevent the increase in PLC activity. An increase during Ca²⁺-free perfusion similar to that seen for PLC was also observed for two other enzymes, namely the phosphatidylinositol (PI) 4-kinase and the PI-4-monophosphate (PIP) 5-kinase, which synthesize the PLC substrate, phosphatidylinositol 4,5-bisphosphate (PIP₂). No alteration of the alpha-adrenoreceptors was observed after 5 min of Ca²⁺-free perfusion. On the other hand, the observed changes in PLC activity during Ca²⁺-free perfusion appear to be due to some redistribution of the enzyme in the myocardium. These results suggest a possible role of the phosphoinositide/PLC pathway in the induction of Ca²⁺-paradox via mechanisms which do not appear to be associated with changes in the characteristics of alpha-adrenergic receptors. (Mol Cell Biochem121: 181–190, 1993)