Hormonal regulation of rat liver microsomal enzymes. Role of gonadal steroids in programming, maintenance, and suppression of delta 4-steroid 5 alpha-reductase, flavin-containing monooxygenase, and sex-specific cytochromes P-450

Neonatal gonadectomy studies and hormonal replacement regimens were employed to characterize the regulation of delta 4-steroid 5 alpha-reductase, microsomal flavin-containing monooxygenase, and several forms of rat hepatic microsomal cytochrome P-450, including three that are sexually differentiated. Rats of both sexes that had been gonadectomized at birth were either untreated or were administered testosterone propionate or estradiol benzoate neonatally (subcutaneous injection on days 1 and 3 of life), postpubertally (an implant of a hormone-packed capsule at 5 weeks of age), or both neonatally and postpubertally. At the age of 10 weeks, all rats were killed, and several liver microsomal enzymes were assayed using immunochemical and catalytic techniques. Expression in the 10-week-old male and female rats of two male-specific cytochrome P-450 forms, termed P-4502c/UT-A and P-4502a/PCN-E, and their associated respective 16 alpha- and 6 beta-steroid hydroxylase activities could either be imprinted (programmed) by androgen exposure during the early neonatal period or, alternatively, could be stimulated by continuous hormone treatment after the age of 5 weeks. By contrast, hepatic expression of two female-specific enzymes, P-4502d/UT-1 and delta 4-steroid 5 alpha-reductase, was only partially dependent on estradiol; birth-gonadectomized rats expressed as much as 30-50% of the enzyme levels present in untreated adult females. Expression of both female-specific enzymes was fully suppressed upon postpubertal exposure to testosterone. In another study, birth sham-operated female rats were administered testosterone using the same regimens described above for the birth-gonadectomized rats. Although neonatal testosterone treatment alone did not affect the expression in these females of the four sex-specific enzymes examined in this study, it did enhance significantly the masculinization effected by postpubertal androgen exposure. This resulted in expression of the male-specific enzymes P-4502c/UT-A and P-4502a/PCN-E in these females at levels comparable to those found in adult males, while simultaneously suppressing the two female-specific enzymes, P-4502d/UT-I and delta 4-steroid 5 alpha-reductase, by approximately 70-75% to levels characteristic of prepubertal rats of either sex. The levels of another microsomal enzyme, flavin-containing monooxygenase, were also measured and found to be regulated by testosterone, but the ontogenic profiles and the effects of gonadectomy and hormone replacement indicated clear differences in its regulation when compared to the other male-specific enzymes.(ABSTRACT TRUNCATED AT 400 WORDS)     

A sex-specific form of cytochrome P-450 catalyzing propoxycoumarin O-depropylation and its identity with testosterone 6 beta-hydroxylase in untreated rat livers: reconstitution of the activity with microsomal lipids

Characteristics of a typical male-dominant reaction, dealkylation of n-propoxycoumarin, in rat livers were studied in relation to microsomal testosterone 6 beta-hydroxylase. The depropylation was more than 10-fold higher in the liver of male than female adult rats, but the sex-related difference was eliminated by neonatal castration. Hypophysectomy of adult male rats, which decreased the rates of male-specific P-450-male-dependent reactions, increased the depropylation of propoxycoumarin, while the rate was decreased by either intermittent injection or continuous infusion of human growth hormone to hypophysectomized rats. With regard to age-related difference, microsomal depropylation was detectable at neonate and reached a maximal level at 14 to 20 d of age, but was abruptly diminished only in female rats at puberty. These changes are in good agreement with those of testosterone 6 beta-hydroxylation and the content of a male-specific P-450(6)beta-1/PB-1. In reconstituted systems using extracted microsomal lipids, P-450(6)beta-1/PB-1 and P-450-male catalyzed the depropylation of propoxycoumarin. However, the microsomal depropylation was inhibited by antibodies which recognize P-450(6)beta-1/PB-1, but not P-450-male. These results indicate that microsomal depropylation of propoxycoumarin is catalyzed mainly by a male-specific P-450(6)beta-1/PB-1 in livers of untreated rats.     

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)     

Rat hepatic cytochrome P-450 isoenzyme 2c. Identification as a male-specific, developmentally induced steroid 16 alpha-hydroxylase and comparison to a female-specific cytochrome P-450 isoenzyme

Rat hepatic cytochrome P-450 isoenzyme 2c, purified to homogeneity from uninduced, adult rat liver (Waxman, D.J., Ko, A., and Walsh, C. (1983) J. Biol. Chem. 258, 11937-11947), was shown to exhibit a unique NH2-terminal amino acid sequence as well as distinctive peptide maps and immunochemical properties when compared to seven other purified rat liver P-450 isoenzymes. P-450 2c was an efficient monooxygenase catalyst with several xenobiotic substrates; P-450 2c also catalyzed 16 alpha- and 2 alpha-hydroxylations of testosterone, androst-4-ene-3,17-dione and progesterone (total turnover = 7-9 min-1 P-450(-1) at 25 microM steroid substrate) with the ratio of 2 alpha to 16 alpha hydroxylation varying from less than or equal to 0.02 to 1.6 depending on the steroid's C-17 substituent. Six different microsomal steroid hydroxylase activities characteristic of purified P-450 2c and sensitive to specific inhibition by anti-P-450 2c antibody were induced at puberty in male but not female rat liver. Microsomal steroid hydroxylations catalyzed by other P-450 isoenzymes exhibited age and sex dependencies distinct from those of the P-450 2c-mediated activities. Immunochemical analyses confirmed that this sex dependence and developmental induction reflected alterations in P-450 2c polypeptide levels. Attempts to chromatographically detect P-450 2c in either immature male or adult female microsomes were unsuccessful and led to purification of P-450 2d (female), a catalytically distinct and female-specific form. Peptide mapping and immunochemical analyses suggested significant structural homologies between the two sex-specific isoenzymes, P-450 2c and P-450 2d (female). A significant suppression of P-450 2c levels (up to 70-80%) was observed upon administration of several classical P-450 inducers. These studies establish that P-450 2c corresponds to the male-specific and developmentally-induced steroid 16 alpha-hydroxylase of rat liver and suggest that the expression of P-450 2c versus P-450 2d (female) may provide a biochemical basis for the sex differences characteristic of rat liver xenobiotic metabolism.     

Selective reactivation of steroid hydroxylases following dissociation of the isosafrole metabolite complex with rat hepatic cytochrome P-450

In order to elucidate the isozyme specificity of complex formation between cytochrome P-450 and the isosafrole metabolite the effect of complex dissociation on different steroid hydroxylation pathways was studied in hepatic microsomal fractions. Isosafrole induction was found to increase the 16 beta- and 7 alpha-hydroxylation of androst-4-ene-3,17-dione approximately 2.8- and 1.7-fold, respectively, whereas the 16 alpha-hydroxylation pathway was decreased to about one-quarter of control activity; 6 beta-hydroxylation was unchanged from control activity. More striking changes were apparent following dissociation of the isosafrole metabolite from its complex with ferricytochrome P-450 by the steroid substrate. Thus an approximate fourfold elevation of 16 beta-hydroxylase activity was observed after displacement and 6 beta-hydroxylation increased about twofold; 7 alpha-hydroxylase activity was decreased to 0.75-fold of undisplaced activity and 16 alpha-hydroxylase activity was unchanged. These data provide convincing evidence that at least two forms of phenobarbital-inducible cytochrome P-450 (cytochromes P-450PB-B and P-450PB/PCN-E) are present to some extent in a catalytically inactive complexed state in isosafrole-induced rat hepatic microsomes. Furthermore, there is now evidence to suggest that the constitutive isozymes cytochrome P-450UT-A and cytochrome P-450UT-F are not complexed to any degree in hepatic microsomes from isosafrole-induced rats.     

Hormonal regulation of levels of the messenger RNA encoding hepatic P450 2c (IIC11), a constitutive male-specific form of cytochrome P450.

A cDNA clone for rat hepatic cytochrome P450 2c (gene product IIC11) was isolated and used to study the sex specificity, expression during development, and hormonal regulation of the mRNA encoding this protein in rat liver. P450 2c mRNA levels were about 16-fold higher in males than in females and were only slightly increased in male rats after administration of phenobarbital, a drug that dramatically raises the levels of mRNAs encoding several other members of the P450 II family. In contrast to the mRNA encoding P450 f (gene product IIC7), which increases gradually over the first 6 weeks of life, P450 2c mRNA showed a dramatic increase at puberty, between 4.5-5.5 weeks of life. The roles of sex steroids and GH in controlling this male-specific, developmentally regulated mRNA were then examined. A dependence on adult androgen was demonstrated by the 2- to 4-fold decrease in P-450 2c mRNA levels after castration of adult male rats and their restoration to normal by administration of the synthetic androgen methyltrienolone. Prolonged treatment (15 days) of ovariectomized female rats with this androgen also increased the levels of P450 2c mRNA and its encoded testosterone 16 alpha-hydroxylase to those of intact males. In male rats treated with estradiol valerate, mRNAs for P450 2c and alpha 2u-globulin, a major male-specific hepatic secretory protein that is under complex hormonal control, fell to negligible levels. None of these hormonal perturbations had a detectable effect on the levels of PB-1 (gene product IIC6) mRNA, which is not expressed in a sex-dependent manner.(ABSTRACT TRUNCATED AT 250 WORDS)     

The structure of phenobarbital-inducible rat liver cytochrome P-450 isoenzyme PB-4. Production and characterization of site-specific antibodies

Fifteen peptides corresponding in sequence to segments of the major phenobarbital-inducible forms of rat hepatic cytochrome P-450 (termed P-450 PB-4 and P-450 PB-5) were chemically synthesized, conjugated to carrier proteins, and used to prepare site-specific rabbit and/or mouse antipeptide antibodies. Four of the synthetic peptides were recognized by rabbit heterosera raised against purified P-450 PB-4. The titer of these heterosera measured against P-450 PB-4 was only partially reduced upon complete adsorption of antipeptide activity suggesting that these peptides represent minor antigenic determinants. Each of the antipeptide antibodies recognized purified P-450 PB-4 and the highly homologous P-450 PB-5 as demonstrated by a solid-phase enzyme-linked immunosorbent assay. Although each antipeptide immunoprecipitated both purified 125I-labeled P-450 PB-4 and also in vitro-synthesized apo-P-450 PB-4, the yields of immunoprecipitation were low relative to that obtained using anti-P-450 heterosera. Only one of the antipeptide antibodies gave a good signal in an immunoblot analysis of either microsomal or purified P-450s PB-4 and PB-5. Three antipeptide antibodies raised against hydrophilic segments located in the amino-terminal one-third of P-450 PB-4 markedly inhibited the P-450 PB-4-catalyzed O-deethylation of the model substrate 7-ethoxycoumarin. Four of the antipeptide antibodies were found to cross-react with P-450 beta NF-B, the major aromatic hydrocarbon-inducible rat hepatic P-450, suggesting that certain amino acid sequences or regions of secondary structure are conserved between the major phenobarbital-induced and polycyclic-induced rat liver P-450 isoenzymes. These studies demonstrate the utility of antipeptide antibodies for evaluation of antigenic sites exposed in native P-450 PB-4, for identification of specific amino acid sequences important for the interaction of P-450 PB-4 with its substrate and/or with cytochrome P-450 reductase in a reconstituted system and for elucidation of structural and immunochemical homologies between P-450 PB-4 and other P-450 isoenzymes present in rat liver endoplasmic reticulum.     

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.     

Characterization of rat and human liver microsomal cytochrome P-450 forms involved in nifedipine oxidation, a prototype for genetic polymorphism in oxidative drug metabolism

The metabolism of the dihydropyridine calcium antagonist and vasodilator nifedipine has been reported to exhibit polymorphism among individual humans (Kleinbloesem, C. H., van Brummelen, P., Faber, H., Danhof, M., Vermeulen, N. P. E., and Breimer, D.D. (1984) Biochem. Pharmacol. 33, 3721-3724). Nifedipine oxidation has been shown to be catalyzed by cytochrome P-450 (P-450) enzymes. Reconstitution, immunoinhibition, and induction studies with rat liver indicated that the forms designated P-450UT-A and P-450PCN-E are the major contributors to microsomal nifedipine oxidation. The P-450 which oxidizes nifedipine (P-450NF) was purified to electrophoretic homogeneity from several human liver samples. Antibodies raised to P-450NF were highly specific as judged by immunoblotting analysis and inhibited greater than 90% of the nifedipine oxidase activity in human liver microsomes. A monoclonal antibody raised to the human P-450 preparation reacted with both human P-450NF and rat P-450PCN-E. Immunoblotting analysis of 39 human liver microsomal samples using anti-P-450NF antibodies revealed the same 52,000-dalton polypeptide, corresponding to P-450NF, with only one of the microsomal samples showing an additional immunoreactive protein. The level of nifedipine oxidase activity was highly correlated with the amount of P-450NF thus detected using either polyclonal (r = 0.78) or monoclonal (r = 0.65) antibodies, suggesting that the amount of the P-450NF polypeptide may be a major factor in influencing the level of catalytic activity in humans as well as rats. Cytochrome b5 enhanced the catalytic activity of reconstituted P-450NF, and anti-cytochrome b5 inhibited nifedipine oxidase activity in human liver microsomes. P-450NF also appears to be a major contributor to human liver microsomal aldrin epoxidation, d-benzphetamine N-demethylation, 17 beta-estradiol 2- and 4-hydroxylation, and testosterone 6 beta-hydroxylation, the major pathway for oxidation of this androgen in human liver microsomes.     

Phenobarbital-induced rat liver cytochrome P-450. Purification and characterization of two closely related isozymic forms

The "major" phenobarbital (PB)-induced cytochrome P-450 species present in livers of male Sprague-Dawley rats was resolved into two catalytically active heme-protein fractions on diethylaminoethyl cellulose. The two species, P-450 PB-4 (Mr = 49,000) and P-450 PB-5 (Mr = 51,000), were purified to homogeneity, and their chromatographic, spectral, catalytic, and structural properties were compared. P-450 BP-5 eluted earlier on hydroxylapatite and exhibited a more significant cholate-induced Type I spectral shift than P-450 BP-4. Very similar substrate specificity profiles were evident when the two isozymes were reconstituted with lipid, cytochrome P-450 reductase, and cytochrome b5 for oxidative metabolism of several xenobiotics, although P-450 PB-4 exhibited a higher specific catalytic activity (greater than or equal to 5-fold) with all substrates tested. Marked differences were also observed in the sensitivities of both isozymes to several P-450 inhibitors. In addition, P-450 PB-4 was greater than or equal to 10-fold more susceptible than P-450 PB-5 to suicide inactivation by two allyl-containing compounds, allylisopropylacetamide and secobarbital, providing a possible explanation of the previously observed partial inactivation by such compounds of phenobarbital-induced P-450 activity in liver microsomes. One-dimensional peptide maps of the two isoenzymes were highly similar. Antibody raised against purified Long Evans rat liver P-450b (Thomas, P. E., Korzeniowski, D., Ryan, D., and Levin, W. (1979) Arch. Biochem. Biophys. 192, 524-532) cross-reacted with P-450 PB-4 and P-450 PB-5. NH2-terminal sequence analysis demonstrated that the first 31 residues of both PB-4 and PB-5 were identical. These sequences indicated that a highly hydrophobic terminal segment, observed previously for other P-450s as well, is followed by a cluster of basic residues, suggesting that the NH2-terminal portion of these P-450s might be involved in membrane anchoring. Although it is unclear whether P-450 PB-4 and P-450 PB-5 are separate gene products or are related by post-translational modifications, this present demonstration of closely related isozymic forms suggests the possible added complexity of microheterogeneity for this family of microsomal monooxygenases.     

Complexation of cytochrome P-450 isozymes in hepatic microsomes from SKF 525-A-induced rats

Potassium ferricyanide-elicited reactivation of steroid hydroxylase activities, in hepatic microsomes from SKF 525-A-induced male rats, was used as an indicator of complex formation between individual cytochrome P-450 isozymes and the SKF 525-A metabolite. Induction of male rats with SKF 525-A (50 mg/kg for three days) led to apparent increases in androst-4-ene-3,17-dione 16 beta- and 6 beta-hydroxylation to 6.7- and 3-fold of control activities. Steroid 7 alpha-hydroxylase activity was decreased to 0.8-fold of control and 16 alpha-hydroxylation was unchanged. Ferricyanide-elicited dissociation of the SKF 525-A metabolite-P-450 complex revealed an even greater induction of 16 beta- and 6 beta-hydroxylase activities (to 1.8- and 1.6-fold of activities in the absence of ferricyanide). Androst-4-ene-3,17-dione 16 alpha-hydroxylase activity increased 2-fold after ferricyanide but 7 alpha-hydroxylase activity was unaltered. An antibody directed against the male-specific cytochrome P-450 UT-A decreased androst-4-ene-3,17-dione 16 alpha-hydroxylase activity to 13% of control in hepatic microsomes from untreated rats. In contrast, 16 alpha-hydroxylase activity in microsomes from SKF 525-A-induced rats, before and after dissociation with ferricyanide, was reduced by anti UT-A IgG to 32 and 19% of the respective uninhibited controls. Considered together, these observations strongly suggest that the phenobarbital-inducible cytochrome P-450 isozymes PB-B and PCN-E are present in an inactive complexed state in microsomes from SKF 525-A-induced rat liver. Further, the increased susceptibility of androst-4-ene-3,17-dione 16 alpha-hydroxylase activity to inhibition by an antibody to cytochrome P-450 UT-A, following ferricyanide treatment of microsomes, suggests that this male sexually differentiated enzyme is also complexed after in vivo SKF 525-A dosage. In contrast, the constitutive isozyme cytochrome P-450 UT-F, which is active in steroid 7 alpha-hydroxylation, does not appear to be complexed to any extent in microsomes from SKF 525-A-induced rats.     

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)     

Cytochrome P-450 isoforms in the liver of rats treated with phenobarbital, 3-methylcholanthrene and Aroclor 1254 studied by monoclonal antibodies

Seven types of monoclonal antibodies to cytochrome P-450 were obtained from the rat liver. Liver microsomal samples from intact rats and those pretreated with phenobarbital, 3-methylcholanthrene, Aroclor 1254, pregnenalone carbonitrile, beta-naphthoflavone and imidazole were stained with these antibodies using immunoblotting technique. The study made it possible to draw the following conclusions. Firstly, two types of these antibodies react with two cytochrome P-450 isoforms, P-450b and P-450 PB/PCN-E. Secondly, two types of antibodies react with three cytochrome P-450 isoforms: P-450a, P-450b and P-450PB/PCN-E. Antibodies of the latter three clones react with two cytochrome P-450 isoforms: P-450c and P-450d. Antibodies of all seven clones can be used for immunomorphological identification of cytochrome P-450 on rat liver paraffin sections.     

Regioselectivity and stereoselectivity of androgen hydroxylations catalyzed by cytochrome P-450 isozymes purified from phenobarbital-induced rat liver

The regioselectivity and stereoselectivity of androgen hydroxylations catalyzed by five isozymes of cytochrome P-450 purified from phenobarbital-induced rat liver were studied in a reconstituted monooxygenase system using testosterone (T) and androst-4-ene-3,17-dione (delta 4-A) as substrates. P-450 PB-3, an isozyme exhibiting low catalytic activity with many xenobiotic substrates, catalyzed efficient (turnover = 15.7 to 18.5 min-1 P-450-1 at 25 microM substrate) and highly stereoselective B-ring hydroxylations of both steroid substrates, with the corresponding 7 alpha- and 6 alpha-hydroxy alcohols formed in ratios of approximately 20 to 30:1, respectively. P-450 PB-2c metabolized testosterone to a mixture of 16 alpha OH-T, 2 alpha OH-T, and delta 4-A (product ratio = 1.0/0.78/0.33; turnover = 10.2 min-1 P-450-1). PB-2c is present in significantly larger amounts in mature male rats as compared to immature males, and probably catalyzes the male-specific testosterone 16 alpha-hydroxylase activity known to be induced at puberty and subject to endocrine control. P-450 PB-4, the major phenobarbital-induced isozyme in rat liver, catalyzed efficient D-ring hydroxylations, yielding 16 beta OH- delta 4-A as the predominant product with delta 4-A as substrate (turnover = 12.0 min-1 P-450-1) and a mixture of 16 beta OH-T, 16 alpha OH-T, and delta 4-A (the latter compound presumably formed via 17 alpha hydroxylation) with testosterone as substrate (turnover = 5.2 min-1 P-450-1). P-450 isozymes PB-1 and PB-5 hydroxylated both steroids with essentially the same regioselectivity as PB-4 but at only 5 to 10% the catalytic rate. Cytochrome b5 stimulated most of these steroid hydroxylations up to 2-fold with no change in regio- or stereoselectivity. The identification of specific steroid metabolites as diagnostic of particular P-450 isozymes should be useful for the assessment of isozymic contributions to microsomal activities and, in addition, facilitate comparisons of P-450 isozymes isolated in different laboratories.     

Simultaneous purification of multiple forms of rat liver microsomal cytochrome P-450 by high-performance liquid chromatography

14 microsomal cytochromes P-450 were purified from the liver of untreated and phenobarbital- or 3-methylcholanthrene-treated male rats. Following solubilization of microsomes with sodium cholate, poly(ethylene glycol) fractionation and aminohexyl-Sepharose 4B chromatography, cytochromes P-450 were purified by high-performance liquid chromatography (HPLC), using a preparative DEAE-anion-exchange column. The pass-through fraction was further purified by HPLC using a cation-exchange column. Other fractions eluted on preparative DEAE-HPLC were further applied onto an HPLC using a DEAE-column. Five kinds (P-450UT-2-6), four kinds (P-450PB-1,2,4 and 5) and five kinds (P-450MC-1-5) of cytochromes P-450 were purified from untreated rats or rats treated with phenobarbital or 3-methylcholanthrene, respectively. HPLC profiles of tryptic peptides of cytochromes P-450UT-2 and P-450MC-2 were identical and the other profiles obtained from seven purified cytochromes P-450 were distinct from each other. Amino-terminal sequences of eight forms of cytochrome P-450 (UT-2, UT-5, PB-1, PB-2, PB-4, PB-5, MC-1 and MC-5) were distinct except for cytochromes P-450PB-4 and P-450PB-5.     

The phenobarbital-type induction of rat liver microsomal monooxygenases by perfluorodecalin

Induction of perfluorodecalin (PFD) of the liver microsomal system of metabolism of xenobiotics has been studied and compared with the inductions by phenobarbital (PB) and 3-methylcholanthrene (MC). It has been shown that PFD increases the content of cytochrome P-450, NADPH-cytochrome c reductase activity. Like PB, PFD induces the activities of benzphetamine-N-demethylase, aldrine-epoxidase, 16 beta-androstendion-hydroxylase. Using specific antibodies against cytochromes P-450b and P-450c (which are the main isoenzymes of cytochrome P-450 in the PB- and MC-microsomes respectively), an immunological identity of the cytochrome P-450 isoforms during PFD and PB induction has been found. According to the rocket immunoelectrophoresis the content of cytochrome P-450 in PFD-microsomes, which is immunologically indistinguishable from P-450b, was approximately 70% of the total cytochrome P-450. Two forms of cytochrome P-450 were isolated from the liver microsomes of PFD-induced rats and purified to homogeneity. A comparison of these forms with cytochromes P-450b and P-450e obtained from the PB-induced rat liver microsomes revealed their similarity in a number of properties, e.g., chromotographic behavior on DEAE-Sephacel column, molecular weight determined by sodium dodecyl sulphate (SDS) electrophoresis in polyacrylamide gel, immunoreactivity, peptide mapping, catalytic activity. The data presented demonstrate that PFD induced in rat liver microsomes the cytochrome P-450 forms whose immunological properties and substrate specificity correspond to those of the PB-type cytochrome P-450. These findings suggest that PFD and PB, which differ in their chemical structure, induce in the rat liver microsomes identical forms of cytochrome P-450.     

Regulation of cytochrome P-450. Immunochemical quantitation of eight isozymes in liver microsomes of rats treated with polybrominated biphenyl congeners

Specific immunochemical techniques were used to quantitate the levels of eight isozymes of cytochrome P-450 (P-450) and epoxide hydrolase in liver microsomes of untreated rats and rats treated with phenobarbital, 3-methylcholanthrene, a mixture of these two compounds, nine individual polybrominated biphenyl (PBB) congeners, and a commercial mixture of PBBs. Levels of two 3-methylcholanthrene-inducible P-450s (designated P-450 beta NF-B and P-450 beta NF/ISF-G) varied over two orders of magnitude and were highly correlated. The levels of four phenobarbital-inducible P-450s (designated P-450PB-B, P-450PB-C, P-450PB-D, and P-450PB/PCN-E) were all correlated to each other. The level of one form, P-450UT-A, which was present at substantial levels in untreated rats, was inversely correlated to the levels of P-450 beta NF-B and P-450 beta NF/ISF-G. Among the PBB congeners which were examined, the presence of bromine at carbons o to the biphenyl bridge favored the induction of P-450PB-B, P-450PB-C, P-450PG-D, and P-450PB/PCN-E but did not necessarily eliminate the ability to induce P-450 beta NF-B and P-450 beta NF-ISF-G. PBB congeners with 2,2'-dibromo substitution induced P-450 beta NF-B and P-450 beta NF/ISF-G if one of the biphenyl rings contained bromines at positions 2,3, and 4. The induction of P-450UT-F was found to occur to a small extent with three of the compounds and is not readily explained in terms of structure-activity relationships. Although correlations were found among levels of some of the forms of P-450, several important exceptions were noted in relative levels of the individual enzymes. While the correlative data are useful in predicting induction patterns, all eight forms of P-450 appear to be independently regulated to some extent.     

Isolation and characterization of cDNA clones for cytochromes P-450 immunochemically related to rat hepatic P-450 form PB-1

Rat hepatic cytochrome P-450 PB-1 is a prominent constitutive P-450 form whose levels increase approximately 2-3 fold upon phenobarbital administration. Antibodies raised against this protein recognized two major proteins in immunoblots of rat liver microsomal proteins and precipitated comparable amounts of two electrophoretically separable hepatic mRNA translation products. The levels of the two mRNAs encoding these polypeptides were increased substantially upon phenobarbital administration. The anti-PB-1 antibodies were used to screen a cDNA library, and two distinct cDNA clones, pTF-1 and pTF-2, were isolated. These clones contain inserts of 1227 and 410 base pairs, respectively, and show 80% nucleic acid sequence homology in their region of overlap. The DNA sequences of these clones show 54% sequence homology to the corresponding portions of the mRNA encoding P-450 PB-4, a major phenobarbital-inducible form of rat liver P-450, and can be optimally aligned with the PB-4 sequence without introducing insertions or deletions. The level of hepatic mRNA which hybridizes to clone pTF-2 increases approximately 2-4-fold after phenobarbital treatment, whereas mRNA which hybridizes to pTF-1 does not change in concentration after this treatment. mRNA, which hybridizes to pTF-1, is, however, 4-fold more abundant in livers of female rats than in livers of male rats.(ABSTRACT TRUNCATED AT 250 WORDS)     

Further characterization of RLM2 and comparison with a related form of cytochrome P-450, RLM2b

We have extended the characterization of RLM2, a constitutive form of rat liver cytochrome P-450, using immunochemical means to quantitate its presence in microsomes, to follow its development in maturing male and female rats, and to determine its response to prototypical P-450 inducers. In addition, RLM2 is compared to RLM2b, a form of P-450 with similar migration on SDS-PAGE and NH2-terminal amino acid sequence. RLM2b is expressed in both sexes at a level of 0.08 nmol/mg microsomal protein at 2 weeks of age. In female rats, this level is unchanged with maturation. However, in the male, the level declined with maturation to reach 0.02 nmol/mg protein by 12 weeks of age. RLM2 is a male-specific form of cytochrome P-450. Originally absent in the 2-week-old rat, it reached a level of 0.03 nmol/mg protein in the adult male, its appearance and increase coinciding with the onset of puberty. Both phenobarbital and 3-methylcholanthrene induced microsomal levels of RLM2b in the adult male and female rat. RLM2, however, was suppressed in the male rat, 58 and 42%, respectively, by the same treatments. RLM2b and RLM2 each catalyze a unique spectrum of hydroxytestosterone metabolites. RLM2b is highly site specific. In contrast, RLM2 produces several isomeric products in the same region of the testosterone molecule. Substitution of the acetyl group of progesterone for the 17-hydroxy group of testosterone did not alter the site specificity of RLM2b, but did alter it for RLM2, indicating, further, a difference in the active site conformation of the two enzymes. Although RLM2b and RLM2 responded differently to inducers and to a changing physiology during maturation, and were functionally quite distinct, the proteins showed a high degree of immunologic relatedness which is suggestive of significant structural similarities. Structural differences do exist, however, as alpha-chymotryptic digestion formed a number of peptide fragments that differed between the two proteins.     

Rat hepatic cholesterol 7 alpha-hydroxylase: biochemical properties and comparison to constitutive and xenobiotic-inducible cytochrome P-450 enzymes

Cytochrome P-450Ch7 alpha (cholesterol 7 alpha-hydroxylase) catalyzes the first and rate-limiting step in the conversion of cholesterol to bile acids in mammalian liver. The properties of this cytochrome P-450 (P-450) form were studied in rat hepatic microsomal preparations in comparison to those of several well characterized constitutive and xenobiotic-inducible rat hepatic P-450s. Administration of the bile acid-sequestering resin cholestyramine [4% (w/w) in the diet] to male or female rats maintained on a reverse light cycle led to a 10- to 15-fold induction of P-450Ch7 alpha activity relative to untreated, standard light cycle controls. By contrast, the levels of four hepatic steroid hormone hydroxylating P-450 enzymes, designated 2a, 2c, 3, and PB-4 [Waxman, D.J. (1984) J. Biol. Chem. 259, 15481-15490], were not significantly affected by cholestyramine treatment. Antibody inhibition experiments established that P-450Ch7 alpha is immunochemically distinct from nine other rat hepatic P-450s, including P-450 3, a highly regio- and stereoselective steroid hormone 7 alpha-hydroxylase. P-450Ch7 alpha was shown to be selectively inactivated by micromolar concentrations of the disulfide-containing reagents disulfiram (Antabuse) and 2,2'-dithiopyridine. This inactivation was readily reversed upon incubation with 2-mercaptoethylamine, suggesting the presence of a highly reactive thiol group at the active site of P-450Ch7 alpha. These findings demonstrate that P-450Ch7 alpha corresponds to a unique P-450 enzyme exhibiting inductive, biochemical, immunochemical, and regulatory properties distinct from those of nine well-characterized rat hepatic P-450 forms.