Vasopressin stimulates phospholipase D activity against phosphatidylcholine in vascular smooth muscle cells

It is now clear that various hormones and agonists can stimulate the production of lipid mediators from nonphosphoinositide phospholipids. We have investigated the production of diacylglycerol from nonphosphoinositide sources, and we demonstrated that vasopressin and other vasoactive agents stimulate hydrolysis of phosphatidylcholine in a variety of cultured vascular smooth muscle cells of rat and human origin. We used vasopressin to characterize this response and found that vasopressin stimulates phospholipase D activity against phosphatidylcholine in A‐10 vascular smooth muscle cells. The vasopressin‐stimulated phosphatidylcholine hydrolysis is both time‐ and concentration‐dependent. The half‐maximal dose of vasopressin required for phosphatidylcholine hydrolysis (ED50∼1 nM) correlates well with vasopressin binding to A‐10 cells (Kd∼2 nM). The phosphatidylcholine in A‐10 cells can be preferentially radiolabeled with [3H]myristic acid; subsequent treatment with vasopressin stimulates a rapid increase in3H‐labeled phosphatidate (∼4×control values at 3 min), and after a short lag,3H‐labeled diacylglycerol rises and reaches maximal levels at 10 min (∼2×control values). Similar temporal elevations of phosphatidate and diacylglycerol occur in A‐10 cells labeled with [3H]glycerol. In A‐10 cells radiolabeled with [3H]choline the elevation of cellular phosphatidate and diacylglycerol is concomitant with the release of [3H]choline metabolites (predominately choline) to the culture medium. The temporal production of phosphatidate and diacylglycerol as well as the release of choline to the culture medium are consistent with vasopressin activating phospholipase D. In addition, vasopressin stimulates a transphosphatidylation reaction that is characteristic of phospholipase D. The transphosphatidylation reaction is detected by the production of phosphatidylethanol that occurs when A‐10 cells are incubated with ethanol and stimulated with vasopressin. The phospholipase D is active in the absence of extracellular Ca++ whereas the vasopressin‐stimulated mobilization of arachidonic acid is dependent on extracellular Ca++. The data indicate that vasopressin stimulates phospholipase D which hydrolyzes phosphatidylcholine to phosphatidate. The phosphatidate is then metabolized, presumably by a phosphatidate phosphohydrolase, to produce sustained levels of cellular diacylglycerol. These sustained levels of diacylglycerol may activate protein kinase C and theraby function in th