Synthesis of sex-specific forms of cytochrome P-450 in rat liver is transiently suppressed by hepatic monooxygenase inducers

The effects of phenobarbital (PB), 3-methylcholanthrene (MC), and alpha-naphthoflavone (alpha-NF) on the synthesis of drug-inducible forms of cytochrome P-450, P-450(PB-1), and P-450(MC-1), and sex-specific forms of cytochrome P-450, P-450(M-1), and P-450(F-1), in male and female rats were studied. Whereas P-450(PB-1) and P-450(MC-1) in liver microsomes were markedly induced in both sexes by treatment with PB and MC, respectively, the contents of P-450(M-1) and P-450(F-1) were significantly decreased by the treatments. alpha-NF, which is not a P-450 inducer, did not change the contents of sex-specific forms of cytochrome P-450. The translatable mRNAs of the P-450s were also determined by using an in vitro translation system. The mRNAs coding for P-450(PB-1) and P-450(MC-1) were increased by drug administrations. On the other hand, the mRNAs coding for P-450(M-1) and P-450(F-1) were transiently decreased by the drugs, and then returned to the normal levels. The time courses of the induction of the drug-inducible P-450s and the repression of the sex-specific P-450s showed no close correlation. alpha-NF had no effect on the synthesis of P-450(M-1) and P-450(F-1). We also found that the synthesis of P-450(M-1) in the livers of untreated rats showed no diurnal variations.     

Purification and characterization of seven distinct forms of liver microsomal cytochrome P-450 from untreated and inducer-treated male Wistar rats

A total of nine forms of cytochrome P-450 were purified to homogeneity from liver microsomes of male Wistar rats. They were P-451 I and P-451 II from untreated rats, P-450 II and P-450 III from phenobarbital-treated rats, MC-P-448 L and MC-P-448 H from 3-methylcholanthrene-treated rats, and P-452, P-448 L, and P-448 H from 3,4,5,3',4'-pentachlorobiphenyl-treated rats. Among them, MC-P-448 L and MC-P-448 H were indistinguishable from P-448 L and P-448 H, respectively, with regard to electrophoretic, spectral, catalytic and immunochemical properties, and thus seven forms were distinct hemoproteins. The minimal molecular weight of each form was as follows: P-451 I (49,000), P-451 II (52,000), P-450 II (52,000), P-450 III (53,500), P-452 (48,000), P-448 L (56,000), P-448 H (54,000). Judging from the oxidized absolute spectra, P-448 H was a high-spin form and the others were of low-spin type. In a reconstituted system, N-demethylations of benzphetamine and aminopyrine were catalyzed by most of the forms at comparable rates. On the other hand, the activities for the oxidations of benzo[a]pyrene, 7-ethoxycoumarin, biphenyl, and estradiol-17 beta varied greatly among the forms of cytochrome P-450. The most efficient catalysts were as follows: P-448 L and P-451 II for benzo[a]pyrene 3-hydroxylation; P-448 L for 7-ethoxycoumarin O-deethylation; P-448 L, P-451 II, and P-448 H for biphenyl 4-hydroxylation; P-448 L and P-448 H for biphenyl 2-hydroxylation; and P-451 II and P-448 H for estradiol 2-hydroxylation. P-451 I, P-450 II, and P-450 III were somewhat poorer catalysts in metabolizing all the substrates except for benzphetamine and aminopyrine, but their substrate specificities were still distinguishable from one another. Of all the purified cytochrome P-450's, P-452 showed the least ability to metabolize all the substrates. Judging from the properties, it appears that six forms in male Wistar rats correspond to the distinct forms of cytochrome P-450 in Long-Evans and/or Sprague-Dawley rats reported by other workers, but P-451 I is a new constitutive isozyme in Wistar rats.     

Purification and characterization of two constitutive cytochromes P-450 (F-1 and F-2) from adult female rats: identification of P-450F-1 as the phenobarbital-inducible cytochrome P-450 in male rat liver

Two hepatic microsomal cytochromes P-450, P-450F-1 and P-450F-2 were purified to electrophoretic homogeneity from untreated adult female rats by high-performance liquid chromatography (HPLC) with anion-exchange, cation-exchange, and hydroxyapatite columns. Cytochromes P-450F-1 and P-450F-2 were not adsorbed with the anion-exchange column, but were retained on a cation-exchange column and were separated poorly. These forms separated on hydroxyapatite HPLC. The molecular weights of cytochromes P-450F-1 and P-450F-2 were 50,000 and 49,000, respectively. The absolute spectrum of the oxidized forms indicated that they had the low-spin state of heme, and the CO-reduced spectral maxima of cytochromes P-450F-1 and P-450F-2 were at 450 and 448 nm, respectively. Both forms catalyzed the N-demethylation of benzphetamine and had low catalytic activity for 7-ethoxycoumarin. Cytochrome P-450F-1 had low 2 alpha-hydroxylation activity toward testosterone. Cytochrome P-450F-2 had low 15 alpha-hydroxylation activity. On the basis of these results and those of NH2-terminal sequence analysis, cytochrome P-450F-2 seemed to be the typical female-specific cytochrome P-450. The NH2-terminal sequence of cytochrome P-450F-1 was identical to that of cytochrome P-450PB-2 purified from hepatic microsomes of male rats treated with phenobarbital. Cytochromes P-450F-1 and P-450PB-2 had identical chromatographic properties, minimum molecular weight, spectral properties, and peptide maps. Furthermore, the antibody to phenobarbital-inducible cytochrome P-450PB-2 gave a single immunoprecipitin band with cytochrome P-450F-1 by Ouchterlony double-diffusion analysis.     

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.     

Microsomal monooxygenase system in Morris hepatoma: purification and characterization of cytochromes P-450 from Morris hepatoma 5123D of 3-methylcholanthrene-treated rats

Two forms of cytochrome P-450 (hepatoma P-450MCI and P-450MCII) were purified from hepatoma 5123D microsomes of tumor-bearing rats treated with 3-methylcholanthrene. Hepatoma P-450MCI had a specific content of 18.4 nmol/mg protein and showed a main protein band with a minimum molecular weight of 56,000 on sodium dodecyl sulfate-polyacrylamide gel. Hepatoma P-450MCII had a specific content of 7.38 nmol/mg protein and a minimum molecular weight of 50,000. The carbon monoxide-reduced difference spectral peak of hepatoma P-450MCI was at 446.5 nm, whereas the peak of hepatoma P-450MCII was at 451 nm. In the reconstituted system, hepatoma P-450MCI catalyzed 3-hydroxylation of benzo[a]pyrene and O-deethylation of 7-ethoxycoumarin, but showed low activities for N-demethylation of benzphetamine and aminopyrine, O-demethylation of p-nitroanisole, and p-hydroxylation of aniline. On the other hand, hepatoma P-450MCII did not catalyze hydroxylation of any of the substrates tested. By Ouchterlony double-diffusion analysis, hepatoma P-450MCI was immunologically indistinguishable from rat liver cytochrome P-450c, but hepatoma P-450MCII was distinct from hepatoma P-450MCI and rat liver cytochrome P-450c. Peptide maps of hepatoma P-450MCI and rat liver cytochrome P-450c after proteolysis with Staphylococcus aureus V8 protease demonstrated the similarity of the two cytochromes P-450.     

Induction of cytochrome P-450 forms in liver microsomes of rats in the early neonatal period after administration of phenobarbital and 3-methylcholanthrene

The activity of cytochrome P-450 dependent monooxygenase system from rat liver microsomes after induction by phenobarbital and 3-methylcholantrene in early neonatal period (3-16 days after birth) was studied. It was found that the total amount of cytochrome P-450 increases after injection of these inducers in neonatal rats of all age groups. In parallel, in the case of 3-methylcholantrene induction the benz(a)pyrene hydroxylase and 7-ethoxyresorufin deethylase activities increase; phenobarbital induction causes a rise in the benzphetamine-N-demethylase and benz(a)pyrene hydroxylase activities. Immunochemical analysis involving the use of antibodies specifically directed against cytochrome P-450 of adult rats revealed that the level of cytochrome P-450 in the case of 3-methylcholantrene induction increases from 5 to 50%, whereas that of cytochrome P-450 upon phenobarbital induction increases from 5 to 40% in liver microsomes of 3- and 16-day-old rats. The mode of inhibition of various substrates metabolism by antibodies in neonatal rat microsomes suggests that the 3-methylcholantrene-induced cytochrome P-448, like in adult rats, participates in the hydroxylation of benz(a)pyrene and O-deethylation of 7-etoxyresorufin. The participation of phenobarbital-induced cytochrome P-450 in the metabolism of benzphetamine and aldrin in neonatal rats is much lower than in the adult ones. The metabolism of benz(a)pyrene in phenobarbital-induced neonatal rat microsomes in all age groups is not inhibited by antibodies. The age-dependent differences in inhibition of metabolism and the increase in the benz(a)pyrene hydroxylase activity in phenobarbital-induced rats suggest that the spectrum of inducible forms of cytochrome P-450 in neonatal rats differ from that in adult animals.     

Purification and characterization of six cytochromes P-450 from hepatic microsomes of immature female rats

Six rat hepatic cytochromes P-450, named P-450IF-1-6, were purified from hepatic microsomes of immature female rats by high-performance liquid chromatography with anion-exchange, cation-exchange, and hydroxylapatite columns. The purified forms, except for P-450IF-4, gave a single protein-staining band on SDS-polyacrylamide gel electrophoresis, with a minimum molecular weight of 50,000 for P-450IF-1, 49,000 for P-450IF-2, 47,000 for P-450IF-3, 53,500 for P-450IF-5, and 54,000 for P-450IF-6. The CO-reduced spectral maximum of these forms was at 450 nm for P-450IF-1, 448 nm for P-450IF-2, 451 nm for P-450IF-3, 449 nm for P-450IF-4, 449 nm for P-450IF-5, and 450 nm for P-450IF-6. All of these cytochromes had the low-spin state of heme in the oxidized form. P-450IF-4 had high metabolic activity for both benzphetamine and 7-ethoxycoumarin. P-450IF-5 had moderate activity toward 7-ethoxycoumarin. P-450IF-3 catalyzed the hydroxylation of testosterone at the 7 alpha-position effectively, but the other forms did not hydroxylate testosterone. Analysis of the NH2-terminal sequence showed that P-450IF-1, 2, 3, 5, and 6 differed structurally from each other. The sequences of P-450IF-1 and IF-2 were somewhat homologous, but the NH2-terminal sequences of the other forms were all different. Based on these results, we concluded that P-450IF-1 corresponded to one of the phenobarbital-inducible forms in male rat liver. P-450IF-2 was a female-specific form and its concentration was low.(ABSTRACT TRUNCATED AT 250 WORDS)     

Induction and regulation of cytochrome P450 K-5 (lauric acid hydroxylase) in rat renal microsomes by starvation

The effects of starvation on rat renal cytochrome P-450s were studied. The content of spectrally measured cytochrome P-450 in the renal microsomes of male rats increased 2-fold with 72 h starvation, but cytochrome b5 and NADPH-cytochrome P-450 reductase were not induced. 7-Ethoxycoumarin O-dealkylation and aniline hydroxylation activities of the renal microsomes of control male rats were very low but were induced 2.5-3-fold by 72 h starvation. Aminopyrine N-demethylation and lauric acid hydroxylation activities were induced 1.5-2-fold by 72 h starvation. The changes in catalytic activities suggested that the contents of individual cytochrome P-450s in the renal microsomes were altered by starvation. The contents of some cytochrome P-450s were measured by Western blotting. P450 DM (P450IIE1), a typical form of cytochrome P-450 induced by starvation in rat liver, was barely detected in rat kidney and was induced 2-fold by 72 h starvation. P450 K-5, a typical renal cytochrome P-450 and lauric acid hydroxylase, accounted for 81% of the spectrally measured cytochrome P-450 in the renal microsomes of control male rats and was induced 2-fold by 72 h starvation. P450 K-5 was not induced in rat kidney by treatment with chemicals such as acetone or clofibrate. The renal microsomes of male rats contained 6-times as much P450 K-5 as those of female rats. These results suggest that P450 K-5 is regulated by an endocrine factor.     

Mouse liver testosterone 16 alpha-hydroxylase (cytochrome P-450(16) alpha). Purification, regioselectivity, stereospecificity, and immunochemical characterization

Microsomal testosterone 16 alpha-hydroxylase (cytochrome P-450(16) alpha) was purified from the livers of male 129/J mice based on enzyme activity in the eluates from columns of DEAE Bio-Gel A, hydroxylapatite, and isobutyl-Sepharose 4B. The specific cytochrome P-450 content of the purified P-450(16) alpha fraction was 9.5 nmol/mg of protein. The specific testosterone 16 alpha-hydroxylation activity of the purified P-450(16) alpha fraction was 80 nmol/min/nmol of cytochrome P-450 or 764 nmol/min/mg of protein, and these values were about 40- and 400-fold higher, respectively, than the activity of solubilized microsomes. The purified P-450(16) alpha showed extremely high regioselectivity and stereospecificity for testosterone hydroxylation; more than 90% of the testosterone metabolites formed by the purified P-450(16) alpha fraction was 16 alpha-hydroxytestosterone. The purified anti-P-450(16) alpha antibody exhibited absolute specificity for inhibition of testosterone 16 alpha-hydroxytestosterone was inhibited by the anti-P-450(16) alpha. Anti-P-450(16) alpha inhibited the 16 alpha-hydroxylation activity of intact microsomes prepared from livers of male or female 129/J mice more than 90%, indicating that P-450(16) alpha is the major cytochrome P-450 isozyme catalyzing 16 alpha-hydroxylation activity of testosterone in these microsomal preparations. The purified P-450(16) alpha fraction also possessed high benzphetamine N-demethylation activity relative to the rates found with other xenobiotic substrates tested in this report.     

Purification and characterization of cytochromes P-450 from liver microsomes of 3-methylcholanthrene-treated crab-eating monkeys

Two forms of cytochrome P-450 (P-450MC1 and P-450MC2) were purified from liver microsomes of crab-eating monkeys (Macaca irus) treated with 3-methylcholanthrene (MC). Monkey P-450MC1 preparation had a specific content of 14.0 nmol/mg protein and showed a main protein band with a minimum molecular weight of 52,000 on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Monkey P-450MC2 preparation had a specific content of 12.1 nmol/mg protein and a minimum molecular weight of 54,000. The carbon monoxide-reduced difference spectral peaks of monkey P-450MC1 and P-450MC2 were at 448 and 447 nm, respectively. In the reconstituted system, monkey P-450MC2 had high activities for benzo[a]pyrene 3-hydroxylation and 7-ethoxycoumarin O-deethylation. Monkey P-450MC1 had low activities toward these two substrates and a high activity for benzphetamine N-demethylation. Monkey P-450MC1 and P-450MC2 were detected by immunoblotting using an antibody prepared against rat cytochrome P-450c, which is a major form of cytochrome P-450 in liver microsomes of MC-treated rats. These results suggested that the molecular properties of cytochrome P-450 in liver microsomes of crab-eating monkeys treated with MC are similar to those in rats.     

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.     

Purification and properties of cytochrome P-450 generally acting as a catalyst on benzo[a]pyrene hydroxylation from liver microsomes of untreated rats

A form of cytochrome P-450 generally catalyzing benzo[a]pyrene (B[a]P) hydroxylation was purified from liver microsomes of untreated rats on the basis of the catalytic activity. The purification procedures consisted of cholate solubilization and chromatography in 3 steps, on DEAE-Toyopearl (at room temperature), hydroxylapatite, and CM-Toyopearl columns. Cytochrome P-450 purified in this way (named P-450/B[a]P) was homogeneous on SDS-polyacrylamide gel electrophoresis, and the molecular weight was estimated to be 51,000. The absorption spectra of the oxidized form of P-450/B[a]P showed a Soret peak at 417 nm, characteristic of low-spin hemoprotein, and the Soret peak of the reduced cytochrome P-450-CO complex was at 451 nm. Immunochemical analysis of P-450/B[a]P indicated that P-450/B[a]P is immunologically distinct from P-450b (a major phenobarbital-inducible form of P-450) and P-450c (a major 3-methylcholanthrene-inducible form of P-450, which highly catalyzes the hydroxylation of B[a]P). B[a]P hydroxylase activity in liver microsomes of untreated rats was inhibited to about 20% by the P-450/B[a]P antibody. These results demonstrate that P-450/B[a]P is a different form of P-450 from P-450b and P-450c, and generally catalyzes B[a]P hydroxylation in liver microsomes of untreated rats.     

Isolation and characterization of multiple forms of cytochrome P-450 from liver microsomes of 3-methylcholanthrene-induced Wistar rats

Chromatography on 1.8-diaminooctyl-Sepharose and DEAE-Sephacel resulted in 4 fractions of cytochrome P-450 from liver microsomes of 3-methylcholanthrene-induced Wistar rats. All the four fractions differed in terms of their absorption maxima in the CO-reduced state, Mr and catalytic activity. Only one cytochrome fraction (cytochrome P-450 C) possessed a high activity upon benz(a)pyrene hydroxylation. All cytochrome P-450 forms were characterized by a low rate of aminopyrine N-demethylation. Antibodies against cytochrome P-450 C (P-448) (anti-P-448) were raised. Cytochromes of fractions A, B1 and B2 in the Ouchterlony reaction of double immunodiffusion did not give precipitation bands with anti-P-448. Neither of the four cytochrome P-450 forms interacted with the antibodies raised against cytochrome P-450 isolated from liver microsomes of rats induced with phenobarbital. The procedure developed is applicable to the isolation of multiple forms of cytochrome P-450 from liver microsomes of 3-methylcholanthrene-induced rats. Using rocket immunoelectrophoresis, cytochrome P-450 C possessing a high (as compared to benz(a)pyrene metabolism) activity (18 nmol/min/nmol cytochrome) and a high (60-70%) content in 3-methylcholanthrene-induced rat liver microsomes was shown to give a relatively high yield.     

Electrophoretic, spectral, catalytic and immunochemical properties of highly purified cytochrome P-450 from sheep lung

1. Cytochrome P-450LgM2 was purified from sheep lung microsomes in the presence of detergents, Emulgen 913 and cholate. 2. The purification procedure involved the chromatography of the detergent solubilized microsomes on DEAE-cellulose and hydroxylapatite. 3. Cytochrome P-450LgM2 was further purified on second DEAE-cellulose and hydroxylapatite columns. 4. The specific content of the highly purified P-450LgM2 was 16-18 nmol P-450/mg protein and purified 164-fold. 5. The yield was 16% of the initial content in microsomes. 6. The SDS-polyacrylamide slab gel electrophoresis (PAGE) of the purified lung cytochrome P-450LgM2 showed one protein band having the monomer molecular weight of 49,500. 7. The absolute CO-difference spectrum of dithionate-reduced P-450LgM2 gave a peak at 451 nm. 8. When sheep lung cytochrome P-450LgM2 and P-450LM2 purified from liver of phenobarbital (PB)-induced rabbit were subjected to Western Blotting and visualized immunochemically with anti-P-450LM2, they showed identical mobilities. 9. P-450LgM2 was found to be very active in N-demethylation of benzphetamine in a reconstituted system containing purified sheep lung reductase and synthetic lipid. 10. Turnover numbers (min-1) for benzphetamine, aniline, ethylmorphine and p-nitrophenol were determined to be 273, 1.2, 15.5 and 1.05, respectively, in a reconstituted microsomal lung monooxygenase system. 11. Spectral, electrophoretic, biocatalytic and immunochemical properties of sheep lung P-450LgM2 were found to be similar to those of P-450 isozyme 2, purified from PB-treated rabbit liver and of rabbit lung microsomes.     

Age-dependent exression 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 2α-, 2β-, 15α-, 16α-, and 16β-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 7α-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 form) 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 6β-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.     

Purification and NH2-terminal sequence of cytochrome P-450 from kidney microsomes of untreated male rats

The major form of cytochrome P-450, P-450K-5, was purified from kidney microsomes of untreated male rats with high-performance liquid chromatography with anion-exchange and hydroxylapatite columns. The monomeric molecular weight of P-450K-5 was 52000 on SDS-polyacrylamide gel electrophoresis and the CO-reduced absorption maximum was at 452 nm. P-450K-5 catalyzed the omega- and (omega-1)-hydroxylation of lauric acid, but was inefficient in the N-demethylation of benzphetamine and the O-dealkylation of 7-ethoxycoumarine. The NH2-terminal sequence of P-450K-5 was quite different from cytochrome P-450s purified from rat hepatic microsomes.     

Multiple forms of cytochrome P-450 from kidney cortex microsomes of rabbits treated with phenobarbital

Two distinct forms of cytochrome P-450 (P-450), referred to as P-450a and P-450b, were separated and purified from kidney cortex microsomes of rabbits treated with phenobarbital. P-450a had a monomeric molecular weight of 53,000, and its CO-reduced difference spectral peak was at 450 nm. It catalyzed the omega-hydroxylation of prostaglandin A1 (PGA1), and the omega- and (omega-1)-hydroxylation of myristate, but it was inactive toward exogenous compounds tested. On the other hand, P-450b had a monomeric molecular weight of 49,000, and its CO-reduced difference spectral peak was at 451 nm. This cytochrome was not able to hydroxylate PGA1 at all. It hydroxylated myristate much more slowly than P-450a, and preferentially at the (omega-1)-position. Unlike P-450a, P-450b efficiently metabolized exogenous compounds such as benzphetamine, aminopyrine, 7-ethoxycoumarin and p-nitroanisole. It is suggested that P-450a and P-450b are specialized for the metabolism of PGA1 and exogenous compounds, respectively, in kidney cortex microsomes.     

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.     

Induction of polysubstrate monooxygenase and aflatoxin production by phenobarbitone in Aspergillus parasiticus NRRL 3240

The presence of the components of polysubstrate monooxygenase (PSMO) activity, viz., cytochrome P-450 and NADPH cytochrome P-450 reductase has been established for the first time in the microsomes of $\text{Aspergillus parasiticus}$. The microsomes were able to metabolize benzphetamine. NADPH cytochrome P-450 reductase, benzphetamine metabolism and aflatoxin production was increased by the presence of phenobarbitone (PB, 2mg/ml) in the medium. These results demonstrate that induction of PSMO activity could be a prerequisite for increased production of aflatoxins, since hydroxylation of intermediates is an obligatory step in aflatoxin biosynthesis.     

Neonatal imprinting and hepatic cytochrome P-450 II. Partial purification of a sex-dependent and neonatally imprinted form(s) of cytochrome P-450

A new form of cytochrome P-450 was partially purified from hepatic microsomes of neonatally imprinted rats (adult male and adult male castrated at four weeks of age). This new form of cytochrome P-450 appears to have an apparent molecular weight of approximately 50,000 daltons as judged by sodium dodecyl sulfate polyacrylamide gel electrophoresis. It appears that this form of cytochrome P-450 is either absent or present in low concentrations in cytochrome P-450 preparations isolated from neonatally nonimprinted rats (adult female and adult male castrated at birth). Reconstitution of testosterone hydroxylase and benzphetamine N-demethylase activities of this partially purified cytochrome P-450 revealed that the presence of testosterone 16α-hydroxylase activity, an imprintable microsomal enzyme, was in parallel with the imprinting status of the animals; a significantly higher activity was detected in the neonatally imprinted than that of the nonimprinted animals. This was in contrast to the nonimprintable benzphetamine N-demethylase, testosterone 7α-and 6β-hydroxylase activities which exhibited no correlation with the imprinting status of the animals. We have prepared antisera from rabbits using the partially purified cytochrome P-450 preparations from adult male rats as antigens. These antisera inhibited microsomal testosterone 16α- and 7α-hydroxylase activities in a concentration-dependent manner, without impairing 6β-hydroxylase activity. These data suggest that the partially purified cytochrome P-450 from adult male rats consists of both imprintable (16α-) and nonimprintable (7α-) testosterone hydroxylase activities. The antisera formed immunoprecipitant lines in the Ouchterlony double diffusion plates with partially purified cytochrome P-450 from both neonatally imprinted and nonimprinted adult rats. The immunoprecipitant lines, as stained by coomassie blue, suggest the homology of the cytochrome P-450 preparations from neonatally imprinted and nonimprinted rats. Immunoabsorption of the antisera against neonatally nonimprinted, partially purified cytochrome P-450 completely removed the immunoprecipitant lines without appreciably impairing the inhibitory effects of antisera on the microsomal testosterone 16α-and 7α-hydroxylase activities. In contrast, immunoabsorption of the antisera against partially purified cytochrome P-450 from adult male rats (imprinted) abolished completely both the immunoprecipitant lines and the inhibition on microsomal testosterone hydroxylation reaction (16α and 7α). The inhibitory actin of antisera on testosterone hydroxyulation was also abolished upon boiling the antisera at 100°C for 5 minutes. The biochemical and immunochemical data in this study suggest that the neonatally imprintable form or forms of hepatic microsomal cytochrome P-450 accounts for a small fraction of the bulk of total cytochrome P-450. However, the existence of this form of cytochrome P-450 is regulated by gonadal hormones during the neonatal period and accounts for the major imprintable sex difference in drug and steroid metabolism in adulthood.