Leupeptin inhibits phospholipases D and C activation in rat hepatocytes

Abstract

The relationship between phospholipase D and C activation was studied in intact rat hepatocytes and rat liver plasma membranes. In intact hepatocytes, in the presence of ethanol, vasopressin, phorbol ester, and calcium independently stimulated phosphatidylethanol (PETH) formation, a specific marker of phospholipase D activity. Leupeptin (10–1500 μM) inhibited PETH formation induced by vasopressin, but was ineffective in response to phorbol ester or calcium. Leupeptin also inhibited the formation of inositol phosphates in intact cells in response to vasopressin. In liver plasma membranes, GTP[S] induced the production of phosphatidic acid and, in the presence of ethanol, PETH. Plasma membrane-associated phospholipase D did not require calcium and was insensitive to protein kinase C inhibitors. Leupeptin inhibited PETH formation in response to GTP[S]. The inhibition by leupeptin could be overcome by increasing the concentration of GTP[S]. In plasma membranes, the inhibitory effects of leupeptin on phospholipase D occurred at doses that far exceed those required to maximally inhibit proteolysis. These data highlight a central role for phospholipase C in the activation of phospholipase D, and a minor role for a direct G-protein activation. The findings also demonstrate a novel use of leupeptin as an inhibitor of phospholipases D and C perhaps at the level of a G protein.