Age- and sex-related expression of cytochromes p450f and P450g in rat liver

We have previously shown that rat hepatic cytochromes P450f, P450g, P450h, and P450i possess a high degree of immunochemical and, presumably, structural relatedness. Polyclonal antibodies directed against cytochromes P450f and P450g were made monospecific by immunoabsorption against the cross-reactive proteins. The specificity of the immunoabsorbed antibodies was established by using Ouchterlony double diffusion analyses, enzyme-linked immunosorbent assays (ELISA), and immunoblots. Since factors regulating the expression of cytochromes P450f and P450g are unknown, a competitive ELISA employing the monospecific antibodies was developed to quantitate each of these isozymes in hepatic microsomes from control and treated rats. The results obtained showed that expression of cytochrome P450f is developmentally regulated in both male and female rat liver. Cytochrome P450f levels rise from less than 1% in young animals to approximately 7 and 14% of total cytochrome P450 in adult male and female rats, respectively. Cytochrome P450g is sex-specific since it is expressed only in male rat liver where it also is developmentally regulated. Levels of cytochrome P450g rise from less than 1% in 3-week-old male rats to an average value of 17% of total cytochrome P450 in 6-week-old adult animals. However, there appear to be at least two subpopulations of adult male Long Evans rats, one of which expresses low levels (less than 1%) of cytochrome P450g and the other high levels (greater than or equal to 10%). This expression appears to be independent of serum testosterone levels. Treatment of immature and adult male rats with 20 xenobiotics that are known inducers of certain cytochrome P450 isozymes revealed that cytochromes P450f and P450g are relatively refractory to induction, although Kepone appears to be a weak inducer of cytochrome P450f.     

NH2-terminal sequence analyses of four rat hepatic microsomal cytochromes P-450

Cytochromes P-450f, P-450g, P-450h, and P-450i are four hepatic microsomal hemoproteins that have been purified from adult rats. Whereas cytochromes P-450g and P-450h appear to be male-specific hemoproteins, cytochrome P-450i is apparently a female-specific enzyme purified from untreated adult female rats. Cytochrome P-450f has been purified from adult male and female rats with equivalent recoveries. Amino-terminal sequence analyses of the first 15-20 amino acid residues of each of these cytochromes P-450 has been accomplished in the current investigation. Each protein possesses a hydrophobic leader sequence consisting of 65-87% hydrophobic amino acids, and only one charged amino acid (Asp) in the amino-terminal region. Although differences in the amino-terminal sequences of cytochromes P-450f, P-450g, P-450h, and P-450i are identified, these hemoproteins all begin with Met-Asp, and marked structural homology is observed among certain of these enzymes. Cytochromes P-450g and P-450h, two male-specific proteins, have 11-12/15 identical residues with cytochrome P-450i, a female-specific isozyme. Cytochromes P-450f and P-450h have 16/20 identical amino-terminal residues. Only limited sequence homology is observed between the amino-terminal sequences of cytochromes P-450f-i compared to rat liver cytochromes P-450a-e. The results demonstrate that cytochromes P-450f, P-450g, P-450h, and P-450i are isozymic to each other and five additional rat hepatic microsomal cytochrome P-450 isozymes (P-450a-e).     

Pituitary regulation of the male-specific steroid 6 beta-hydroxylase P-450 2a (gene product IIIA2) in adult rat liver. Suppressive influence of growth hormone and thyroxine acting at a pretranslational leve;

Oligonucleotide probes that distinguish between two closely related mRNAs encoding steroid 6 beta-hydroxylases of rat P-450 gene family CYP3A were used to individually assess their responsiveness to pituitary hormone regulation. Northern blot analysis revealed that the elevation of immunoreactive P-450 IIIA2 in livers of hypophysectomized rats reflects an elevation of the constitutive, male-specific P-450 IIIA2 (P-450 2a) and not an induction of the drug-inducible P-450 IIIA1 (P-450p). P-450 IIIA2 mRNA levels in intact adult male rats were found to be markedly reduced by GH administered as a continuous infusion at levels as low as 1 mU/h, indicating that GH acts at a pretranslational step to suppress expression of this P-450 enzyme. In hypophysectomized male rats, however, this same hormone treatment was only partially effective at suppressing P-450 IIIA2 mRNA and protein, suggesting that other pituitary-dependent factors contribute to the suppression observed in the intact rats. Further analysis revealed that T4, but not ACTH or human CG, can act in concert with GH to effect a more complete suppression of hepatic P-450 IIIA2 mRNA and protein in hypophysectomized rats. T4 also suppressed the expression of another GH-regulated, male-specific hepatic enzyme, designated P-450 IIA2 (P-450 RLM2), particularly in hypophysectomized female rats. In contrast, the GH-responsive P-450 IIA1 (P-450 3) was much less affected by T4 treatment. Thus, while T4 can modulate P-450 IIIA2 expression, it does not serve as a universal regulator for hepatic expression of GH-responsive P-450s.     

Regulation of testosterone hydroxylation by rat liver microsomal cytochrome P-450

The pathways of testosterone oxidation catalyzed by purified and membrane-bound forms of rat liver microsomal cytochrome P-450 were examined with an HPLC system capable of resolving 14 potential hydroxylated metabolites of testosterone and androstenedione. Seven pathways of testosterone oxidation, namely the 2 alpha-, 2 beta-, 6 beta-, 15 beta-, 16 alpha-, and 18-hydroxylation of testosterone and 17-oxidation to androstenedione, were sexually differentiated in mature rats (male/female = 7-200 fold) but not in immature rats. Developmental changes in two cytochrome P-450 isozymes largely accounted for this sexual differentiation. The selective expression of cytochrome P-450h in mature male rats largely accounted for the male-specific, postpubertal increase in the rate of testosterone 2 alpha-, 16 alpha, and 17-oxidation, whereas the selective repression of cytochrome P-450p in female rats accounted for the female-specific, postpubertal decline in testosterone 2 beta-, 6 beta-, 15 beta-, and 18-hydroxylase activity. A variety of cytochrome P-450p inducers, when administered to mature female rats, markedly increased (up to 130-fold) the rate of testosterone 2 beta-, 6 beta-, 15 beta-, and 18-hydroxylation. These four pathways of testosterone hydroxylation were catalyzed by partially purified cytochrome P-450p, and were selectively stimulated when liver microsomes from troleandomycin- or erythromycin estolate-induced rats were treated with potassium ferricyanide, which dissociates the complex between cytochrome P-450p and these macrolide antibiotics. Just as the testosterone 2 beta-, 6 beta-, 15 beta-, and 18-hydroxylase activity reflected the levels of cytochrome P-450p in rat liver microsomes, so testosterone 7 alpha-hydroxylase activity reflected the levels of cytochrome P-450a; 16 beta-hydroxylase activity the levels of cytochrome P-450b; and 2 alpha-hydroxylase activity the levels of cytochrome P-450h. It is concluded that the regio- and stereoselective hydroxylation of testosterone provides a functional basis to study simultaneously the regulation of several distinct isozymes of rat liver microsomal cytochrome P-450.     

Regulation of rat hepatic cytochrome P-450: age-dependent expression, hormonal imprinting, and xenobiotic inducibility of sex-specific isoenzymes

The influence of age, sex, and hormonal status on the expression of eight rat hepatic cytochrome P-450 (P-450) isoenzymes was evaluated by both catalytic and immunochemical methods. The male specificity of P-450 2c(male)/UT-A, the major microsomal steroid 16 alpha-hydroxylase of uninduced rat liver [Waxman, D.J. (1984) J. Biol. Chem. 259, 15481-15490], was shown to reflect its greater than or equal to 30-fold induction at puberty in male but not in female rats. The female specificity of P-450 2d(female)/UT-I was shown to reflect its developmental induction in females. P-450 PB-2a/PCN-E was shown to mediate greater than or equal to 85% of microsomal steroid 6 beta-hydroxylase activity; the male specificity of this P-450 largely reflects its developmental suppression in female rats. Neonatal gonadectomy and hormonal replacement experiments established that neonatal androgen "imprints" or programs the male rat for developmental induction of P-450 2c(male)/UT-A, for maintenance of P-450 PB-2a/PCN-E, and for suppression of P-450 2d(female)/UT-I, all of which occur in male rats at puberty. By contrast, the expressed levels of P-450 isoenzymes PB-1/PB-C, 3/UT-F, PB-4/PB-B, ISF-G, and beta NF-B were mostly unaffected by the rats' age, sex, and hormonal status. Studies on the sex specificity of P-450 induction established that the response of these latter five isoenzymes to the P-450 inducers phenobarbital, beta-naphthoflavone, pregnenolone-16 alpha-carbonitrile, and isosafrole is qualitatively and quantitatively equivalent in females as in males.     

Adult male-specific and neonatally programmed rat hepatic P-450 forms RLM2 and 2a are not dependent on pulsatile plasma growth hormone for expression

Rat hepatic cytochrome P-450 form RLM2 is a testosterone 15 alpha-hydroxylase reported to be male-specific on the basis of purification studies (Jansson, I., Mole, J., and Schenkman, J. B. (1985) J. Biol. Chem. 260, 7084-7093). The sex dependence, developmental regulation, xenobiotic induction, and hormonal control of P-450 RLM2 expression were studied using P-450 form-specific immunochemical and catalytic assays. Polyclonal antibodies raised to rat hepatic P-450 3 (P-450 gene IIA1) were found to cross-react strongly with P-450 RLM2, but not with 10 other rat P-450 forms, suggesting that P-450 3 and P-450 RLM2 are highly conserved in primary structure. Western blotting of liver microsomes under conditions where P-450s 3 and RLM2 are resolved electrophoretically revealed that P-450 RLM2 is markedly induced at puberty in male rats, with no protein detected (less than or equal to 5% of adult male levels) in adult females or immature animals of either sex. A similar developmental dependence was observed for hepatic microsomal testosterone 15 alpha-hydroxylase activity, which was found to be catalyzed primarily by P-450 RLM2. P-450 RLM2 was resistant to induction by several xenobiotics and in the case of phenobarbital and beta-naphthoflavone, was suppressed by 50-60%. Studies on the steroid hormonal regulation of P-450 RLM2 revealed that its adult male-specific expression is imprinted (programmed) in response to neonatal testosterone exposure. Ovariectomy studies demonstrated that suppression by estrogen does not contribute significantly to the absence of P-450 RLM2 in adult female rats. Although the male-specific developmental induction of P-450 RLM2 in response to neonatal testosterone is strikingly similar to that of P-450 2c (testosterone 2 alpha/16 alpha-hydroxylase; gene IIC11), P-450 RLM2 expression is not dependent on the pulsatile pituitary growth hormone secretion required for P-450 2c synthesis. Rather, hypophysectomy of adult male rats increased P-450 RLM2 and its associated testosterone 15 alpha-hydroxylase activity by 50-100%.(ABSTRACT TRUNCATED AT 400 WORDS)     

Evidence that isoniazid and ethanol induce the same microsomal cytochrome P-450 in rat liver, an isozyme homologous to rabbit liver cytochrome P-450 isozyme 3a

Cytochrome P-450j has been purified to electrophoretic homogeneity from hepatic microsomes of adult male rats administered ethanol and compared to the corresponding enzyme from isoniazid-treated rats. The enzymes isolated from ethanol- and isoniazid-treated rats have identical chromatographic properties, minimum molecular weights, spectral properties, peptide maps, NH2-terminal sequences, immunochemical reactivities, and substrate selectivities. Both preparations of cytochrome P-450j have high catalytic activity in aniline hydroxylation, butanol oxidation, and N-nitrosodimethylamine demethylation with turnover numbers of 17-18, 37-46, and 15 nmol product/min/nmol of P-450, respectively. A single immunoprecipitin band exhibiting complete identity was observed when the two preparations were tested by double diffusion analysis with antibody to isoniazid-inducible cytochrome P-450j. Ethanol- and isoniazid-inducible rat liver cytochrome P-450j preparations have also been compared and contrasted with cytochrome P-450 isozyme 3a, the major ethanol-inducible isozyme from rabbit liver. The rat and rabbit liver enzymes have slightly different minimum molecular weights and somewhat different peptide maps but similar spectral, catalytic, and immunological properties, as well as significant homology in their NH2-terminal sequences. Antibody to either the rat or rabbit isozyme cross-reacts with the heterologous enzyme, showing a strong reaction of partial identity. Antibody against isozyme 3a specifically recognizes cytochrome P-450j in immunoblots of induced rat liver microsomes. Aniline hydroxylation catalyzed by the reconstituted system containing cytochrome P-450j is markedly inhibited (greater than 90%) by antibody to the rabbit protein. Furthermore, greater than 85% of butanol or aniline metabolism catalyzed by hepatic microsomes from ethanol- or isoniazid-treated rats is inhibited by antibody against isozyme 3a. Results of antibody inhibition studies suggest that cytochrome P-450j is induced four- to sixfold by ethanol or isoniazid treatment of rats. All of the evidence presented in this study indicates that the identical cytochrome P-450, P-450j, is induced in rat liver by either isoniazid or ethanol, and that this isozyme is closely related to rabbit cytochrome P-450 isozyme 3a.     

Constitutive testosterone 6 beta-hydroxylase in rat liver

The cytochrome P-450 that was purified from hepatic microsomes of male rats treated with phenobarbital and designated P450 PB-1 (Funae and Imaoka (1985) Biochim. Biophys. Acta 842, 119-132) had high testosterone 6 beta-hydroxylation activity (turnover rate, 13.5 nmol of product/min/nmol of P-450) in a reconstituted system consisting of cytochrome P-450, NADPH-cytochrome P-450 reductase, cytochrome b5, and a 1:1 mixture of lecithin and phosphatidylserine in the presence of sodium cholate. In ordinary conditions in the reconstituted system with cytochrome P-450, reductase, and dilauroylphosphatidylcholine, P450 PB-1 had little 6 beta-hydroxylase activity. The catalytic activities toward testosterone of two major constitutive forms, P450 UT-2 and P450 UT-5, were not affected by cytochrome b5, phospholipid, or sodium cholate. P450 PB-1 in rat liver microsomes was assayed by immunoblotting with specific antibody to P450 PB-1. P450 PB-1 accounted for 24.4 +/- 5.6% (mean +/- SD) of the total spectrally-measured cytochrome P-450 in hepatic microsomes of untreated adult male rats, and was not found in untreated adult female rats. P450 PB-1 was induced twofold with phenobarbital in male rats. P450 PB-1 was purified from untreated male rats and identified as P450 PB-1 from phenobarbital-treated rats by its NH2-terminal sequence, peptide mapping, and immunochemistry. These results showed that P450 PB-1 is a constitutive male-specific form in rat liver. There was a good correlation (r = 0.925) between the P450 PB-1 level and testosterone 6 beta-hydroxylase activity in rat liver microsomes.(ABSTRACT TRUNCATED AT 250 WORDS)     

Characterization of a cDNA for rat P-450g, a highly polymorphic, male-specific cytochrome in the P-450IIC subfamily

Cytochrome P-450g (IIC13) is a highly polymorphic, male-specific rat liver isozyme which is a member of the P-450IIC subfamily. A cDNA, c5126 (1737 bp), for P-450g was isolated from a lambda gt11 library synthesized from (+g) male rat liver mRNA. Sequence analysis of the clone, c5126, revealed an open reading frame of 1473 nucleotides, which encodes for a 490 amino acid polypeptide possessing the 30 NH2-terminal residues reported for cytochrome P-450 (M-3) (P-450g) [Matsumoto et al. (1986) J. Biochem. 100, 1359-1371]. A high degree of sequence similarity (greater than 70%) exists between c5126 and the published sequences of cDNAs for members of the IIC subfamily, while its sequence similarity to other subfamilies (IA, IIB, and IIIA) was much lower (less than 55%). RNA blot analysis utilizing an oligonucleotide probe specific for P-450g revealed that P-450g mRNA was expressed in livers of male but not female Sprague-Dawley (CD) and ACI rats, indicating that the sex difference was regulated pretranslationally. Furthermore, expression of P-450g mRNA was age dependent in livers of male ACI rats (a homozygous, phenotypically high P-450g strain). However, the mRNA for P-450g was expressed equally in livers of outbred male CD rats representing either the high (+g) or the low (-g) phenotype and of inbred ACI rats (+g) representing the high phenotype, indicating that the defect in (-g) rats does not reflect differences in expression of P-450g mRNA.     

Feminization of rat hepatic P-450 expression by cisplatin. Evidence for perturbations in the hormonal regulation of steroid-metabolizing enzymes

The biochemical basis for the complex effects of the anti-cancer drug cisplatin on hepatic cytochrome P-450 activity was studied in adult male rat liver using P-450 form-specific steroid hydroxylase assays and antibody probes. Cisplatin treatment of adult male rats resulted in a marked and prolonged feminization of the pattern of P-450 enzymes expressed in hepatic tissue. The adult male-specific cytochrome P-450 forms designated P-450 2c (P-450 gene IIC11), P-450 2a (gene IIIA2), and P-450 RLM2 were decreased by 70-90% after 7-14 days, with parallel decreases in their respectively associated microsomal steroid hydroxylase activities. Concomitantly, hepatic levels of the female-predominant enzymes P-450 3 (gene IIA1) and P-450j (gene IIE1) were elevated approximately 2-4-fold. The female-specific microsomal enzyme androstenedione 5 alpha-reductase was induced approximately 20-fold by cisplatin; however, no elevation of the female-specific P-450 2d was detected. The underlying hormonal basis for these effects of cisplatin was then examined. Serum testosterone levels were found to be depleted by cisplatin in a time- and dose-dependent manner which correlated with the observed changes in these hepatic enzymes. Furthermore, castration of adult rats altered the profile of these enzymes in a manner which resembled that observed with cisplatin treatment, suggesting that androgen depletion was the primary cause for the observed feminization of hepatic enzyme expression. Consistent with this possibility, the synthetic androgen methyltrienolone effectively blocked the changes in hepatic enzyme expression induced by cisplatin. Moreover, hepatic enzyme feminization was significantly reversed by chorionic gonadotropin, which fully restored serum testosterone levels in the cisplatin-treated rat. Luteinizing hormone-releasing hormone challenge experiments demonstrated that the responsiveness of the pituitary to this hypothalamic regulator of testicular androgen production was unimpaired by cisplatin treatment, indicating that hypothalamic production or secretion of luteinizing hormone-releasing hormone may be deficient in the cisplatin-treated animals. These studies establish that the effects of cisplatin on hepatic P-450 enzyme expression result from its interruption of the hypothalamic-pituitary stimulation of testicular androgen production and that this, in turn, leads to a depletion of circulating androgens required for maintenance of normal P-450 enzyme expression in adult male rats.     

Olfactory-specific cytochrome P-450 (P-450olf1; IIG1). Gene structure and developmental regulation

The olfactory neuroepithelium is the principal site of interaction for airborne molecules, mainly odorants, in the organism. The presence of an active cytochrome P-450-dependent oxidative metabolism in this tissue has not yet been studied as well as the hepatic cytochrome P-450-dependent oxidations. In this report, we describe cytochrome P-450olf1 (IIG1), a P-450 gene expressed at high levels uniquely in the olfactory epithelium. By Southern analysis and genomic DNA cloning, we demonstrate that a single copy of the P-450olf1 gene is present in the rat genome and contains 9 exons. We conclude that rat P-450IIG1 is a single gene subfamily. P-450olf1 gene expression was activated after birth in both male and female Sprague-Dawley rats and remained active in adult olfactory epithelium. A first maximum level of expression was reached around postnatal day 21. The coincidence between the temporal gene activation of P-450olf1 and the postnatal increase in the sensitivity of olfactory response to odorants is consistent with a potential role of this enzyme in olfactory function.     

Isozyme specificity of testosterone 7 alpha-hydroxylation in rat hepatic microsomes: is cytochrome P-450a the sole catalyst?

In the present study we show that monospecific antibody against cytochrome P-450a completely inhibits testosterone 7 alpha-hydroxylation in hepatic microsomes of untreated male or female rats or rats of either sex treated with dexamethasone. These data are in contrast with those of K. Nagata et al. (1987, J. Biol. Chem. 262, 2787-2793) who recently reported that an antibody prepared against cytochrome P-450a completely inhibited testosterone 7 alpha-hydroxylase activity in microsomes from untreated or 3-methylcholanthrene-treated rats but only inhibited 50% of the activity in microsomes from dexamethasone-treated rats. They proposed that dexamethasone treatment of rats induced another testosterone 7 alpha-hydroxylase in rat liver. The discrepancy in the two sets of data was due, at least in part, to the use of a chromatography system by Nagata et al. that is incapable of resolving a number of testosterone metabolites. Dexamethasone treatment of rats leads to a marked increase in the production of several testosterone metabolites, including 15 beta-hydroxytestosterone which is cochromatographic with 7 alpha-hydroxytestosterone in their chromatography system. Our results indicate that cytochrome P-450a accounts for all of the testosterone 7 alpha-hydroxylase activity in microsomes from dexamethasone-treated rats, and that testosterone 7 alpha-hydroxylation continues to be a useful marker for monitoring cytochrome P-450a in rat hepatic microsomes.     

Digitoxin metabolism by liver microsomal cytochrome P-450 and UDP-glucuronosyltransferase and its role in the protection of rats from digitoxin toxicity by pregnenolone-16 alpha-carbonitrile

The aim of the present study was to investigate whether the mechanism by which pregnenolone-16 alpha-carbonitrile (PCN) protects rats from digitoxin toxicity was dependent on the induction of liver microsomal cytochrome P-450p and/or the UDP-glucuronosyltransferase active toward digitoxigenin monodigitoxoside (UDP-GT-dt1). Evidence is presented that suggests troleandomycin is a selective inhibitor of cytochrome P-450p in vivo, based on the pattern of inhibition observed when zoxazolamine paralysis time and hexobarbital sleeping time were measured in rats treated with different cytochrome P-450 inducers. A single dose of troleandomycin completely reversed the ability of PCN to protect rats from digitoxin toxicity, establishing the importance of cytochrome P-450p induction in the protective effect of PCN. The postpubertal decline in constitutive cytochrome P-450p levels in female but not male rats was paralleled by a female-specific, age-dependent decline in the rate of digitoxin sugar cleavage (i.e., digitoxosyl oxidation of digitoxin to 15'-dehydrodigitoxin and digitoxosyl cleavage to digitoxigenin bisdigitoxoside). This resulted in a marked sex difference in the rate of digitoxin sugar cleavage catalyzed by liver microsomes from mature rats (male/female approximately 6). However, no sex difference in digitoxin toxicity was observed in either immature or mature rats. In contrast to cytochrome P-450p, liver microsomal UDP-GT-dt1 activity increased dramatically with age in both male and female rats (mature/immature approximately 10). However, no age differences in digitoxin toxicity were observed in rats of either sex. The results indicate that cytochrome P-450p and UDP-GT-dt1 can be independently regulated in rat liver and that large changes in the constitutive levels of these microsomal enzymes have no effect on digitoxin toxicity. This suggests that the induction of cytochrome P-450p and UDP-GT-dt1 does not fully account for the mechanism by which PCN protects rats from digitoxin toxicity.     

Cytochrome P-450C-M/F, a new constitutive form of microsomal cytochrome P-450 in male and female rat liver with estrogen 2- and 16 alpha-hydroxylase activity

A new cytochrome P-450 isozyme, P-450C-M/F, has been purified from untreated rat liver microsomes. The purified preparation was electrophoretically homogeneous and contained 12-15 nmol of P450/mg of protein and had a minimum molecular weight of 48,500. The NH2-terminal amino acid sequence of P-450C-M/F was different from that of other P-450's. Immunoblot analysis of microsomes demonstrated that P-450C-M/F was present in the liver of untreated male as well as female rats. Treatment of rats with phenobarbital, 3-methylcholanthrene, or beta-naphthoflavone did not induce P-450C-M/F. Cytochrome P-450C-M/F exhibited little activities of 7-ethoxycoumarin and 7-ethoxyresorufin O-deethylation or hydroxylation of arylhydrocarbon, testosterone, androstenedione, and progesterone. In contrast, it was highly active in N-demethylation of ethylmorphine and benzphetamine and in 2- and 16 alpha-hydroxylation of estrogens, particularly that of estradiol. These studies establish that cytochrome P-450C-M/F is constitutively present in both male and female rats and suggest that it may be involved in the oxidative metabolism of estradiol, particularly in the formation of estriol, the uterotropic metabolite of estradiol.     

Phenotypic differences in expression of cytochrome P-450g but not its mRNA in outbred male Sprague-Dawley rats

Cytochrome P-450g was isolated from livers of adult male Sprague-Dawley (CD) rats. Antibody to P-450g cross-reacted with several proteins in Western blots of liver microsomes from male CD rats. An immunospecific antibody was prepared by adsorption over immunoaffinity columns of Sepharose-bound solubilized rat liver microsomes from female CD and male Fischer 344 rats containing little or no P-450g. The immunopurified antibody recognized a single protein on Western blots of liver microsomes from male CD rats with an electrophoretic mobility identical to that of P-450g. Using this antibody, P-450g was shown to be male specific in the CD rat and expressed at maturity. Adult male CD rats were shown to fall into two distinct populations, those expressing high levels of P-450g (+g) and those expressing low levels of P-450g (-g). The P-450g content of the two populations differed 10- to 20-fold. P-450g was low or absent in liver microsomes of both sexes of adult Fischer rats. Purified P-450g catalyzed the hydroxylation of testosterone and androstenedione principally at the 6 beta-position and progesterone at the 16 alpha- and 6 beta-positions in reconstituted systems. However, the hydroxylation of these steroids by liver microsomes from the (+g) phenotype did not differ from that of the (-g) phenotype. Translatable mRNA for P-450g could be detected in livers of adult male CD rats but not female rats. However, the level of P-450g mRNA in livers of adult male CD rats with the (+g) phenotype did not differ from that of (-g) phenotype. These data suggest that phenotypic differences in the expression of P-450g do not depend on differences in mRNA content. This study provides a clear example of a P-450 isozyme which is markedly variable in an outbred strain of rat and absent in an inbred strain. Such a marked variability in an enzyme involved in metabolism of endogenous and exogenous substrates could account for some of the strain differences in susceptibility to toxic chemicals.     

Hormonal and developmental regulation of expression of the hepatic microsomal steroid 16 alpha-hydroxylase cytochrome P-450 apoprotein in the rat

The hormonal regulation of the sexually differentiated cytochrome P-450 isozyme which catalyzes 16 alpha-hydroxylation of testosterone and 4-androstene-3,17-dione in male rat liver (P-450(16) alpha) was investigated. Estradiol valerate injection of male rats caused a decrease in P-450(16) alpha levels to almost the female level, while methyltrienolone injection had the reverse effect in female animals. Hypophysectomy abolished the sex difference in P-450(16) alpha levels. Human growth hormone infusion into male rats, mimicking the female pattern of growth hormone secretion, caused a feminization of P-450(16) alpha levels. The same effect was also seen in hypophysectomized rats of both sexes. In contrast, a different administration schedule involving 12 h injections of human growth hormone, mimicking the male pattern of growth hormone secretion, caused a masculinization of P-450(16) alpha levels in hypophysectomized rats, at a daily dose which causes feminization when given by infusion. Thus, the level of expression of P-450(16) alpha in the liver is dependent on the temporal pattern of blood growth hormone levels. While infusion of rat growth hormone into male rats also feminized the P-450(16) alpha levels, infusion of ovine prolactin had no effect. Ontogenic studies showed that the developmental pattern of P-450(16) alpha expression in the liver coincided with the known pattern of development of the sexual differentiation of hepatic steroid 16 alpha-hydroxylase activity and of the diurnal pattern of growth hormone secretion.     

Age-dependent expression of cytochrome P-450s in rat liver

Age-related changes in the levels of multiple forms of cytochrome P-450 as well as in the testosterone hydroxylation activities of hepatic microsomes of male and female rats of different ages from 1 week to 104 weeks (24 months) were investigated. The total cytochrome P-450 measured photometrically did not change much with age in either male and female rats. Testosterone 2 alpha-, 2 beta-, 6 beta-, 15 alpha-, 16 beta-hydroxylation activities of male rats were much higher than those in female rats and were induced developmentally. These activities in male rats declined with aging to the very low level in female rats by 104 weeks of age. Testosterone 7 alpha-hydroxylation activity was maximum at 3 weeks of age in rats of both sexes. The levels of individual cytochrome P-450s were measured by immunoblotting. P450IA1 and IA2 (3-methylcholanthrene-inducible forms) and P450IIB1 and IIB2 (phenobarbital-inducible forms) were detected at low levels in rats of both sexes at all ages. P450IIA2, IIC11 and IVA2 were detected in male rats only and were induced developmentally. These male-specific forms disappeared in male rat liver at 104 weeks of age. P450IIC12, a typical female-specific form, was induced developmentally in female rats and was also detected in male rats at 3 and 104 weeks of age. P450IIIA2 (testosterone 6 beta-hydroxylase) was induced developmentally in male rats, but disappeared when the rats were 104 weeks of age. In female rats, P450IIIA2 was detected only at 1 and 3 weeks of age. P450IIA1, IIC6, IIE1 and IVA3 were detected in rats of both sexes at any age. P450IIC6 and IVA3 were induced developmentally and detected at a similar level in rats of both sexes. The level of P450IIA1 was maximum at 3 weeks of age in rats of both sexes. The changes in the level of P450IIE1 during aging were small compared with the changes in other cytochrome P-450s used in this study. These observations provide concrete evidence to our earlier hypothesis that each of the forms of cytochrome P-450 in male rats alter with aging in different patterns resulting in a practical feminization of over-all cytochrome P-450 composition at old age.     

Effects of phenobarbital, 3-methylcholanthrene and polychlorinated biphenyls on sex-specific forms of cytochrome P-450 in liver microsomes of rats

The effects of treatment with phenobarbital, 3-methylcholanthrene or polychlorinated biphenyls (PCB) on the amounts of sex-specific forms of cytochrome P-450, namely P-450-male and P-450-female, in male and female rats were studied. Although treatment with phenobarbital, 3-methylcholanthrene or PCB markedly increased the total amount of hepatic cytochrome P-450, P-450-male and P-450-female were rather decreased or not significantly changed. Thus, the percentages of P-450-male and P-450-female in the total cytochrome P-450 were decreased in liver microsomes from the treated rats. The increases in specific cytochrome P-450, such as P-448-H, P-448-L, and P-450I-c accounted for the increase in the total amount of cytochrome P-450 in the treated rats. The treatment with phenobarbital or PCB increased the activities of testosterone 16 alpha-hydroxylase, benzo(a)pyrene hydroxylase and aminopyrine N-demethylase more markedly in female rats than in male rats. Similarly, the treatment with 3-methylcholanthrene increased benzo(a)pyrene hydroxylase more markedly in female rats. Therefore, the sex-differences in testosterone 16 alpha-hydroxylase, benzo(a)pyrene hydroxylase, and aminopyrine N-demethylase activities became smaller after the drug treatment. These results indicate that sex-specific P-450-male and P-450-female were unaffected, or even depressed by the agents in some cases.