Protein kinase C reduces the KCa current of rat tail artery smooth muscle cells

The hypothesis that protein kinase C (PKC) isable to regulate the whole cell Ca-activated K(K_Ca) current independently of PKC effects on local Ca release events was tested using the patch-clamp technique and freshly isolated rat tail artery smooth muscle cells dialyzed with a strongly buffered low-Ca solution. The active diacylglycerol analog1,2-dioctanoyl-sn-glycerol (DOG) at 10 µM attenuated the current-voltage(I-V)relationship of the K_Ca current significantly and reduced the K_Cacurrent at +70 mV by 70 ± 4% (n = 14). In contrast, 10 µM DOG after pretreatment of the cells with 1 µM calphostin C or 1 µM PKC inhibitor peptide, selective PKCinhibitors, and 10 µM1,3-dioctanoyl-sn-glycerol, aninactive diacylglycerol analog, did not significantly alter theK_Ca current. Furthermore, thecatalytic subunit of PKC (PKC_C)at 0.1 U/ml attenuated theI-Vrelationship of the K_Ca currentsignificantly, reduced the K_Cacurrent at +70 mV by 44 ± 3% (n = 17), and inhibited the activity of singleK_Ca channels at 0 mV by 79 ± 9% (n = 6). In contrast, 0.1 U/mlheat-inactivated PKC_C did notsignificantly alter the K_Cacurrent or the activity of singleK_Ca channels. Thus these resultssuggest that PKC is able to considerably attenuate theK_Ca current of freshly isolatedrat tail artery smooth muscle cells independently of effects of PKC onlocal Ca release events, most likely by a direct effect on theK_Ca channel.