Chromatin-associated protein phosphokinases of rat ventral prostate. Characteristics and effects of androgenic status.

Protein phosphokinase activity endogenous to rat ventral prostate chromatin was assayed by using edphosphophosvitin as an exogenous substrate. For maximal activity of the kinase reaction, the presence of 200 mM NaCl, 5 mM MgCl2, and 1 mM dithiothreitol was essential. Two apparent pH optima were observed, a broad one between pH 7 and 7.4, and one at pH 7.89. At pH 7.4 the apparent Km for 31% dephosphophosvitin was 0.3 mg per ml. With respect to ATP, two apparent Km values (0.04 and 0.41 mM) were found. The kinase activity was minimal toward exogenous histones when used as substrates (3% for lysine-rich and 0.3% for arginine-rich (f3) histones, compared with dephosphophosvitin controls). The protein phosphokinases were not significantly stimulated by cyclic adenosine 3':5'-monophosphate (cyclic AMP) when histones used as substrate. With dephosphophosvitin as substrate, cyclic AMP produced a small inhibition (5 to 15%). Orchiectomy of adult rats resulted in a rapid decline in the chromatin-associated protein phosphokinase activity assayed using optimal experimental condition described above. At 9 hours postorchiectomy, a 30% decline in the activity was observed; this was further reduced to about 50% of the control by 18 hours. This decrease in the kinase activity (e.g. at 9 hours postorchiectomy) appears to precede measurable changes in the protein and RNA complements of chromatin. Testosterone replacement following orchiectomy abolished this decline in the chromatin-associated activity. The chromatin-associated protein phosphokinase activity toward lysine-rich and arginine-rich histones was also sensitive to androgenic status of the animals and declined rapidly postorchiectomy. The results suggest the presence of multiple and androgen-sensitive protien phosphokinases associated with rat ventral prostate chromatin, which may modulate the phosphorylation of nuclear nonhistone phosphoproteins with changing gene action mediated by testosterone in this target tissue.