Monoclonal antibodies to rat liver cytochrome P-450 2c/RLM5 that regiospecifically inhibit steroid metabolism

Abstract

Hybridomas were formed from myeloma cells and spleen cells derived from BALB/c female mice immunized with purified liver microsomal cytochrome P-450 2c/RLM5 (P-450 gene IIC11) isolated from untreated adult male rats. Six hybridoma clones produced monoclonal antibodies (MAbs) of the IgM( k) type. All the MAbs bound strongly to P-450 2c/RLM5 when measured by radioimmunoassay, and four of the six specifically immunoprecipitated P-450 2c/RLM5 in an Ouchterlony double-immunodiffusion test. These four MAbs also bound but did not immunoprecipitate P-450 RLM3. The MAbs that precipitated P-450 2c/RLM5 neither bound nor precipitated P-450 PB-B (gene IIB1) and P-450 BNF-B (gene IA1) of rats or P-450 LM2 and P-450 LM4 of rabbits. In contrast, mouse polyclonal anti-P-450 2c/RLM5 antibody strongly immunoprecipitated P-450 RLM3 as well as P-450 2c/RLM5 and to a lesser extent P-450 PB-B and P-450 LM2. The MAbs that precipitated P-450 2c/RLM5 also inhibited by more than 90% androstenedione 16α-hydroxylase activity of untreated rat microsomes, but did not inhibit microsomal 6β- or 7α-hydroxylation. In addition, complete inhibition of both androstenedione 16α-hydroxylation and testosterone 16α-hydroxylation was observed in a reconstituted system with P-450 2c/RLM5. Androstenedione 6β-hydroxylation catalyzed by P-450 2c/RLM5 was also inhibited, whereas P-450 3-catalyzed 7α-hydroxylation was not inhibited by the MAbs. P-450 2c/RLM5 catalyzed 2α-, 16α- and 6β-hydroxylation of progesterone in a reconstituted system were also inhibited by the MAb by 60–80%. These MAbs should prove useful for “reaction phenotyping,” i.e. for defining the contribution of microsomal P-450 2c/RLM5 to the oxidative metabolism of endogenous steroids and other P-450 substrates in animal and human tissues.