Protein kinase C (PKC) activity and PKC messenger RNAs in human pituitary adenomas.

Protein kinase C (PKC) is involved in the differentiation and growth regulation of a variety of tissues including anterior pituitary gland cells. To determine the distribution of PKC in different types of adenomas, PKC activity was analyzed in human pituitary tumors and the effects of hypothalamic hormone stimulation on PKC activity were examined in cultured adenoma cells. Gonadotroph (LH/FSH) and null cell adenomas had significantly higher levels of particulate, soluble, and total PKC activity compared with growth hormone (GH) adenomas (P < 0.05). Chronic stimulation of null cell adenomas with gonadotropin hormone-releasing hormone or of one GH adenoma with GH-releasing hormone for 7 days did not significantly alter total PKC activity in pituitary cells cultured in serum-free medium. Localization of the calcium-dependent PKC isozymes (alpha, beta and gamma) by immunohistochemistry and in situ hybridization revealed predominantly PKC alpha in all adenomas and variable expression of PKC beta and gamma in some tumors. When the calcium-independent PKC isozymes (delta, epsilon, and zeta) were localized by in situ hybridization, normal and neoplastic pituitaries expressed abundant mRNA for PKC epsilon, whereas some tumors and one normal pituitary had a few cells positive for PKC zeta mRNA as evaluated by grain density and the number of cells labeled. These results indicate that there is a variable distribution of PKC mRNA isozymes in human pituitary adenomas and that normal pituitaries and pituitary adenoma cells express the mRNA for both the calcium-dependent and some of the calcium-independent PKC isozymes. Chronic treatment with the hypothalamic gonadotropin hormone-releasing hormone and GH-releasing hormone, which increased LH/FSH and GH secretion, respectively, did not increase PKC activity in cultured adenoma cells. The presence of calcium-dependent and calcium-independent PKC isozymes in normal and neoplastic pituitary cells indicates that PKC probably plays a major role in signal transduction in the human pituitary adenomas examined in this study.