Stimulation of rat platelet adenylate cyclase by an endogenous calcium-dependent protease-like activity.

Abstract

The stimulation of adenylate cyclase by various exogenous proteases has been described in several tissues. In this study, we describe a 2 to 7-fold increase of adenylate cyclase activity in a particulate preparation from rat platelets following prior exposure of the homogenate to calcium. Calmodulin alone was unable to increase the adenylate cyclase activity and trifluoperazine only partially inhibited the calcium-dependent activation. On the other hand, calcium had a slight stimulatory effect on the particulate preparation but this activation was greatly enhanced by the addition of supernatant. Only the combined addition of calcium, supernatant and calmodulin to washed particulate preparations reconstituted the activation seen in homogenates. The activation was significantly inhibited by leupeptin and thiol reagents. It is concluded that platelets contain a calcium-dependent protease-like activity that is able to increase adenylate cyclase activity in membrane fractions. This phenomenon may be involved in the regulation of adenylate cyclase activity in platelets.