PROTEIN-KINASE-C MEDIATES ANGIOTENSIN-II-INDUCED CONTRACTIONS AND THERELEASE OF ENDOTHELIN AND PROSTACYCLIN IN RAT AORTIC RINGS

Angiotensin II (Ang II) stimulation of vascular smooth muscle results in a myriad of intracellular signals that interact to produce the fina l physiologic response of the cell. We used rat aortic rings to invest igate the role of protein kinase C (PKC) in Ang II-induced contraction s and in the concomitant release of endothelin (ET) and prostacyclin ( PGI(2)). Ang II (10(-9)M) produced a rapid contraction which was susta ined for 10 min. When aortic rings were pretreated with graded concent rations of each of the four different inhibitors of PKC, that is, (i) 1-(5-isoquinolinesultonylmethyl) piperazine (H7); (ii) 1-(5-isoquinoli nesulfonyl) piperazine(CL); (iii) staurosporine; or (iv) calphostin C, inhibition of Ang II-induced contractions began at 10(-9)M, and was n early complete at 10(-6)M. Ang II-induced contractions were associated with a 10-fold increase in the release of both ET and PGI(2). Pretrea tment with 10(-6)M of any one of the same four PKC inhibitors blocked Ang II-induced release of both ET and PGI(2). Pretreatment with a bloc ker of the endothelin-A receptor, BQ123 (10(-6)M), inhibited, by appro ximately 50%, Ang II-induced contractions, and the release of both ET and PGI(2). In aortic rings denuded of endothelium, Ang II-induced con tractions, and the release of both ET and PGI(2) were significantly re duced, compared to intact rings. We conclude that PKC mediates Ang II- induced contractions in rat aortic rings and that the secondary releas e of both ET and PGI(2) during Ang II-induced contractions is mediated , at least in part, by PKC. In addition, approximately half of Ang II- induced contractile force and of PGI(2) release is dependent upon the ET released from endothelial cells.