Studies on cytochrome P-450 (P-450 17α,lyase)from guinea pig adrenal microsomes. Dual function of a single enzyme and effect of cytochrome b5

Abstract

We have reported (Kominami S., Shinzawa K. and Takemori S. (1982) Biochem. Biophys. Res. Commun. 109, 916–921) that a cytochrome P-450 purified from guinea pig adrenal microsomes shows 17α-hydroxylase and C-17,20-lyase activities in a reconstituted system with NADPH-cytochrome P-450 reductase. The homogeneity of the purified cytochrome P-450 was examined with the following methods: isoelectric focusing, immunoelectrophoresis and affinity chromatography on cytochrome b 5-immobilized Sepharose. It was found that progesterone competitively inhibited C-17,20-lyase reaction and that progesterone was converted into androstenedione by 17α-hydroxylation followed by the lyase reaction. These results indicate that the dual activities are carried out by a single enzyme (P-450 17α,lyase). P-450 17α,lyase had the maximum activity at pH 6.1 both for 17α-hydroxylation (6.0 nmol/min per nmol of P-450) and the lyase reaction (11.0 nmol/min per nmol of P-450). Upon addition of cytochrome b 5 to the reconstituted system, the optimal pH for 17α-hydroxylation was shifted to 7.0 and that of the lyase reaction to 6.6. The maximum activities at these optimal pH values were almost the same in the presence or absence of cytochrome b 5. With the addition of cytochrome b 5, both the activities were stimulated above pH 6.3–6.5 and were suppressed below pH 6.3–6.5. These results indicate that cytochrome b 5 plays some important role in controlling the dual activities of P-450 17α,lyase.