Alterations in murine keratinocyte differentiation induced by activated rasHa genes are mediated by protein kinase C-alpha.

Primary mouse keratinocytes expressing the v-rasHa oncogene (v-rasHa keratinocytes) produce squamous papillomas when grafted onto nude mice and respond abnormally to signals for terminal differentiation both in vivo and in vitro. Since protein kinase C (PKC) activators and v-rasHa induce similar phenotypic changes in cultured keratinocytes, and cellular diacylglycerol levels are constitutively elevated in ras-transformed keratinocytes, we tested whether PKC is a downstream target for oncogenic ras in this cell type. Ca(2+)-dependent PKC activity was increased in lysates from cultured v-rasHa keratinocytes when compared to control cells; in contrast, Ca(2+)-independent activity decreased. Similar to PKC activators, v-rasHa blocked Ca(2+)-mediated expression of the early epidermal differentiation markers keratins K1 and K10 while inducing aberrant expression of K8. Pretreatment of v-rasHa keratinocytes with bryostatin to block PKC function restored Ca(2+)-mediated expression of K1 and K10 and blocked abnormal expression of K8, suggesting that these responses are mediated by the PKC pathway. Furthermore, expression of K1 is restored at bryostatin doses which specifically down-modulate PKC-alpha, the only Ca(2+)-dependent PKC isozyme detected in cultured keratinocytes. In contrast to the inhibition of K1 and K10, Ca(2+)-induced expression of the late epidermal differentiation markers loricrin, filaggrin, and keratinocyte transglutaminase was accelerated by v-rasHa, as previously reported in normal keratinocytes treated with PKC activators. Pretreatment of v-rasHa keratinocytes with bryostatin blocked expression of late markers in these cells, and this response was correlated with down-regulation of PKC-alpha. The results of this study suggest that oncogenic ras alters keratinocyte differentiation by altering the function of the PKC signaling pathway, and that PKC-alpha is the specific isozyme involved in down-modulating expression of keratins K1 and K10 and up-regulating expression of loricrin, filaggrin, and keratinocyte transglutaminase.