Identification of human cytochromes P-450 analogous to forms induced by phenobarbital and 3-methylcholanthrene in the rat

The expression of xenobiotic-metabolizing enzymes in human prostate and in prostate epithelial cells (PECs) derived from primary cultures

BACKGROUND

Dietary heterocyclic amines (HCAs) are carcinogenic in rodent prostate requiring activation by enzymes such as cytochrome P450 (CYP) and N-acetyltransferase (NAT).

METHODS

We investigated by Western blotting and immunohistochemistry the expression of CYP1A1, CYP1A2, and NAT1 in human prostate and in prostate epithelial cells (PECs) derived from primary cultures and tested their ability to activate the dietary carcinogen 2-amino-3-methylimidazo[4,5-f]quinoline (IQ) and its N-hydroxy metabolite (N-OH-IQ) to DNA-damaging moieties.

RESULTS

Western blotting identified CYP1A1, CYP1A2, and NAT1. Immunohistochemistry localized NAT1 to the cytoplasm of PECs. Inter-individual variation was observed in the expression levels of CYP1A1, 1A2, and NAT1 (11, 75, and 35-fold, respectively). PECs expressed CYP1A1 and NAT1 but not CYP1A2. When incubated with IQ or N-OH-IQ, PECs formed DNA adducts indicating their ability to metabolically activate these compounds.

CONCLUSIONS

Prostate cells possess the capacity to activate dietary carcinogens. PECs may provide a useful model system to study their role in prostate carcinogenesis.

N-Acetyltransferase and sulfotransferase activity in human prostate: potential for carcinogen activation

BACKGROUND

N-Acetyltransferases (NATs) and sulfotransferases (SULTs) are key phase II metabolizing enzymes that can be involved both in the detoxification and in the activation of many human promutagens and procarcinogens.

METHODS AND RESULTS

We investigated the expression of NATs and SULTs in human prostate and tested their role in the activation the N-hydroxy (N-OH) metabolite of 2-amino-3-methylimidazo[4,5-f]quinoline (IQ), a dietary carcinogen, to form DNA adducts. Western blotting showed detectable levels of NAT1, SULT1A1 and SULT1A3 with marked inter-individual variation. NAT2 and other SULT enzymes were not detectable. NAT1 was localized by immunohistochemistry to the cytoplasm of epithelial cells. The presence of acetyl Co-enzyme A (acetyl CoA) and 3'-phosphoadenosine-5'-phosphosulfate (PAPS), NAT and SULT cofactors, respectively, significantly increased the level of DNA adducts, detected by P-postlabelling analysis, in calf thymus DNA incubated with N-OH-IQ and prostate cytosolic fractions. The enhancement in the level of DNA adducts in the presence of PAPS correlated with the level of SULT1A1 protein. A single prostate cytosol with the SULT1A1*2/*2 genotype produced less DNA adducts than cytosols with the *1/*2 and *1/*1 genotypes. No significant correlation was observed between NAT1 protein level and the formation of DNA adducts, even in the presence of acetyl CoA.

CONCLUSIONS

In conclusion, we demonstrated that NAT1, SULT1A1 and SULT1A3 are present in human prostate and that both enzyme classes significantly contribute to the activation of N-hydroxylated heterocyclic amines to DNA-damaging species in this tissue. Variation in expression levels, in combination with dietary and/or environmental exposure to carcinogens, could be influential in determining individual susceptibility to prostate cancer.

The Gerhard Zbinden memorial lecture: application of biochemical and genetic approaches to understanding pathways of chemical toxicity

All cells have evolved a complex number of pathways, which allow them to survive in a chemically hostile environment. In multicellular organisms, these pathways are catalysed by a number of key enzymes, which inhibit the absorption of toxins or facilitate their elimination so that they do not accumulate to toxic levels within the cell. These cytoprotective pathways are also critical determinants of the effectiveness of drug therapy and are thought to have evolved from a limited number of biochemical pathways, such as those which allow cells to utilise molecular oxygen in respiration without suffering deleterious effects. The study of both simple and multicellular organisms has shown that many stress response pathways previously considered as distinct adaptive mechanisms in mammalian systems are interrelated coordinated responses to toxic challenge. Understanding the functions and mechanisms of regulation of the genes involved in these pathways has many applications in medical science-in evaluating the role of environmental factors in the pathogenesis of human disease, in chemoprevention, in drug development and in the application of drug therapy. The use of genetic approaches, coupled with new chip-based profiling technologies, will play a key role in the development of studies in this research area.

N-Acetyltransferases, sulfotransferases and heterocyclic amine activation in the breast

Heterocyclic amines are mammary carcinogens in rats and their N-hydroxy metabolites are substrates for subsequent metabolic activation by N-acetyltransferases (NAT) and sulfotransferases (SULT) in man. We investigated the expression of these enzymes in human breast tissue and the relationship between NAT genotype and NAT mRNA expression or enzyme activity. Immunohistochemical staining of sections of breast tissue identified expression of NAT1 and NAT2 protein in human mammary epithelial cells, but not in the stroma. We also measured the formation of DNA adducts of the heterocyclic amines 2-amino-3-methylimidazo[4,5-f]quinoline (IQ) and 2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine in calf thymus DNA after incubation of their promutagenic N-hydroxy metabolites with mammary cytosols prepared from reduction mammoplasty tissue. Experimental observations gained from use of enzyme cofactors and NAT and/or SULT inhibitors on cytosolic enzyme activity, recombinant NAT1 activity and heterocyclic amine-DNA adduct formation suggest that both NAT1 and SULT1A enzymes contribute significantly to the activation of N-hydroxylated heterocyclic amines in mammary tissue. NAT1 mRNA transcript levels were found to be two- to three-fold higher than mRNA transcripts of the NAT2 gene in reduction mammoplasty tissue and mammary epithelial cells. NAT1-specific p-aminobenzoic acid acetylation activity, but not NAT2-specific sulfamethazine acetylation activity, was detectable in mammary cytosols. There was no association apparent between NAT genotype and the levels of NAT mRNA or NAT enzyme activity, or between NAT1 genotype and IQ-DNA adduct formation mediated by mammary cytosols. Western blot analysis of mammary cytosolic protein showed detectable levels of SULT1A1 and SULT1A3.

Placental expression of arylamine N-acetyltransferases: evidence for linkage disequilibrium between NAT1*10 and NAT2*4 alleles of the two human arylamine N-acetyltransferase loci NAT1 and NAT2

The study of placental xenobiotic metabolism is important for the determination of foetal exposure to environmental chemicals as placental metabolism influences the nature of chemicals reaching the foetus from its mother's blood. Arylamine N-acetyltransferases are drug metabolizing enzymes which N-acetylate hydrazines and arylamines, including carcinogenic arylamines and sulphonamide drugs. The two human arylamine N-acetyltransferase isoenzymes, NAT1 and NAT2, are encoded at multi-allelic loci. Here, we have determined N-acetyltransferase (NAT) activity in term placentas from normal, uncomplicated pregnancies. Both NAT1 and NAT2 enzyme activities were detectable. Placental NAT1 activity was at least 1000 fold greater than NAT2 activity. There was a 6 fold inter-placental variation in NAT1 activity. Mean placental NAT1 specific activity was 1.42 nmoles para-aminobenzoic acid N-acetylated.min-1.mg protein-1, which is comparable to NAT1 specific activities which have been measured in adult tissues. The NAT1, but not the NAT2, protein was detectable in placentas by Western blotting. Maternal and foetal NAT genotypes were determined from placenta, using placental blood clots and cord blood respectively, allowing NAT haplotype determination. There appeared to be linkage disequilbrium between NAT1* and NAT2* alleles such that the combination NAT1*10/NAT2*4 was found 3.5 times more frequently than would be expected.

Acetylation of arylamines by the placenta

The N-acetylation of arylamines and hydrazines used as drugs may alter their pharmacological or toxicological activity. Arylamine N-acetyltransferase (NATs) are involved in drug metabolism, as they catalyse the N-acetylation of arylamine and mono-substituted hydrazine substrates. Placental metabolism regulates the nature of the chemicals which reach the developing fetus. The study of drug metabolism during pregnancy is important in determining the effect on the fetus of drugs administered to the mother and the maternal drug dose required, important if the treatment is to be effective. There are two forms of NAT in humans, NAT1 and NAT2, which are encoded at multi-allelic loci. There is inter-individual variation in both NAT1 and NAT2 activity, which has implications in drug dosage. Using a combination of enzyme activity measurements and Western blotting, this study has characterised the arylamine N-acetylation capabilities of placenta and cord blood. NAT1 activity in placenta and cord blood demonstrated inter-individual variation and the variation was in the range expected for adult NAT1 activity. The genotypes of both NAT1* and NAT2* were determined using DNA prepared using placental blood clots (maternal DNA) and cord blood (fetal DNA). The results indicate that placental NAT activity is an important factor when considering N-acetylation during pregnancy.

Direct measurement of pO2 distribution and bioreductive enzymes in human malignant brain tumors

PURPOSE

To measure the oxygen status of human malignant brain tumors in vivo and to determine the activities and expression of bioreductive enzymes in these same human brain tumor samples, as a means of assessing their suitability as targets for bioreductive drug therapy.

METHODS AND MATERIALS

A polarographic oxygen electrode was used to measure the intratumoral oxygen tension in twenty patients with malignant brain tumors during open brain surgery, performed under standard anaesthetic conditions. Six different tracks, each with a path length of 22 mm, were recorded per patient representing 192 readings. Following pO2 measurements the tumors were resected and stored in liquid N2 for subsequent bioreductive enzyme analysis. Eight human malignant brain tumors were assessed, by enzyme activity and western blot expression, for the presence of various bioreductive enzymes. These enzymes included DT-diaphorase, NADH cytochrome b5 reductase, and NADPH cytochrome P-450 reductase. Of these eight gliomas analyzed six samples were incubated with the bioreductive drug tirapazamine, in the presence of cofactor(s), to establish whether human brain tumors could metabolize this compound.

RESULTS

Both the high grade intrinsic and metastatic brain tumors showed significant regions of hypoxia. All the tumors subjected to enzyme profiling contained the bioreductive enzymes, DT-diaphorase, NADH cytochrome b5 reductase and NADPH cytochrome P-450 reductase. Also all six of the brain tumors investigated could metabolize tirapazamine to the two-electron reduction product.

CONCLUSION

These findings would favor primary brain tumors as suitable targets for bioreductive therapy.

Characterization of cytochromes P-450 purified from untreated and 14C-2,3,7,8-tetrachlorodibenzo-p-dioxin--treated marmoset monkeys: identification of the major form as a possible orthologue of P-450 1A2

Three purified cytochrome P-450 (P-450) forms obtained from liver microsomes of marmoset monkeys induced with 14C-2,3,7,8-tetrachlorodibenzo-p-dioxin (14C-TCDD) were characterized. Comparison of electrophoretic and spectral properties and reconstituted methoxy-and ethoxyresorufin O-dealkylase (MROD and EROD) activities with those of forms isolated from untreated marmosets indicated that one of these (form F) is likely constitutive. Another form (D) had MROD and EROD activities which were 100 and 15 times those observed for form F. A form having biophysical properties similar to those of form D was also found in untreated animals. A third form (C) had an appreciable capacity to bind its inducing agent and showed a TCDD-to-P-450 molar ratio for detergent-free solutions of 0.66 +/- 0.13 to 1. In immunoblot analyses of these forms with antibodies raised against specific peptide sequences derived from rat P-450 1A1 and 1A2, the only positive reactions seen were those for untreated and inducible forms D with anti-rat 1A2. This provides evidence that the main or sole P-450 1A form in marmoset liver microsomes is 1A2, as in humans, and that this is inducible by TCDD.

Purification of cytochromes P-450 derived from liver microsomes of untreated and 2,3,7,8-tetrachlorodibenzo-p-dioxin-treated marmoset monkeys

The purification of multiple forms of cytochrome P-450 (P450) from 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD)-treated marmosets using fast protein liquid chromatography (FPLC) is described. The main aim was to achieve a better separation of certain closely related P450 sub-forms from each other than that previously obtained using conventional chromatography. An 8-aminooctyl-Sepharose fraction of cholate-solubilized microsomes was obtained first and, after fast desalting on Sephadex G-25, loaded on to a preparative Mono Q column. Five of the six gradient peaks contained P450 and were each rechromatographed on an analytical Mono Q column. The pass-through peak was fractionated further using a Mono S column. Other HPLC-quality anion- and cation-exchange gels were compared. For removal of excess of non-ionic detergent, five types of hydroxyapatite gels were compared. Seven purified forms of P450 and cytochrome b5 and P420 were isolated and characterized according to PHAST sodium dodecylsulphate-polyacrylamide gel electrophoretic apparent molecular masses, catalytic, spectral and magnetic properties and also TCDD-binding capacity (molar ratio of [14C]TCDD to P450). There are at least two sub-forms which appear to be TCDD inducible, one showing a substantial ethoxyresorufin-O-deethylase activity and the other having a high TCDD-binding molar ratio. Two other forms appear to be constitutive, as deduced from comparisons with forms purified from untreated animals.

Cytochrome P-450 induction in human lung tumor-derived cell lines. Characterisation and effects of inflammatory mediators

Cytochrome P-450 species (P-450) comprise a polymorphic multigene family of heme-containing enzymes which are essential to the phase-I metabolism of xenobiotics. Induction of P-450 species by drugs and carcinogens has been extensively studied; endogenous regulation of P-450 also occurs during normal development and disease. The aim of this project was to study the in-vitro induction of P-450 and its modulation by inflammatory mediators in the human lung tumor-derived cell lines NCI H322 and NCI H358. The cell lines expressed detectable levels of 7-ethoxyresorufin O-deethylase which could be induced by benzanthracene. After benzanthracene treatment, a protein tentatively identified as isozyme CYP1A1 was detected by Western-blot analysis and a concommitant increase in CYP1A mRNA expression was observed. Optimal induction was observed at a benzanthracene concentration of 5 micrograms/ml with cells grown in RPMI medium containing 10% fetal calf serum. The effects of endotoxin, dexamethasone and five recombinant DNA-derived cytokines, interleukin-1 beta, tumor necrosis factor, and interferons alpha, beta and gamma, on constitutive and benzanthracene-induced ethoxyresorufin O-deethylase activity were examined in NCI H322 cells. Of all the lymphokines studied, only interferon gamma had any marked effect. Administration of this lymphokine strongly suppressed ethoxyresorufin O-deethylase activity in both control and benzanthracene-treated cells.

cAMP post-transcriptionally diminishes the abundance of adrenodoxin reductase mRNA

Adrenodoxin reductase (AR; ferridoxin: NADP+ oxidoreductase, EC 1.18.1.2) is a flavoprotein that mediates electron transport from NADPH to all known mitochondrial forms of cytochrome P450. AR mRNA was found in all human adult and fetal tissues examined; however, it was vastly more abundant in tissues that synthesize steroid hormones. The ratio of the 18- form of mRNA lacking 18 alternately spliced bases to the 18+ form was approximately 100:1 and remained constant irrespective of the tissue or hormonal manipulation, indicating that the alternate splicing is a passive nonregulated event. AR protein was unchanged by forskolin treatment of human JEG-3 cytotrophoblast cells for 24 h, but the mRNA diminished. Phorbol 12-myristate 13-acetate and cycloheximide had no effect, even though these agents had the expected effects on P450scc and adrenodoxin mRNAs. cAMP decreased the abundance of AR mRNA expressed from both transfected plasmids and the endogenous gene, indicating the effect was post-transcriptional. AR gene transcription in JEG-3 cells and promoter-chloramphenicol acetyltransferase constructs transfected into JEG-3 cells were unresponsive to forskolin. Powerful basal transcription elements were identified between -46 and -214 bases from the principal transcriptional initiation site, a region containing six elements closely resembling the binding site for transcription factor SP1.

cDNA sequence, deduced amino acid sequence, predicted gene structure and chemical regulation of mouse Cyp2e1

The cDNA encoding the mouse Cyp2e1 protein has been isolated and sequenced, and shown to share 92%, 79%, 80% and 79% sequence similarity over the coding region with rat, human, rabbit 1 and rabbit 2 CYP2E1 cDNA sequences respectively. The predicted Cyp2e1 protein contains 493 amino acids, with a molecular mass of 56781 Da. The protein contains many features common to other cytochrome P450s, including a potentially phosphorylatable serine residue at position 129 within a canonical cyclic AMP-dependent protein kinase site. Southern blot analysis of genomic DNA prepared from C57BL/6 and DBA/2N mice suggests the presence of only a single Cyp2e1 gene. The Cyp2e1 gene was isolated and its organization was established by PCR using oligonucleotides to its predicted intron/exon boundaries. These results showed that the mouse Cyp2e1 gene is approx. 11,000 bp in length and has a similar structure to the human and rat CYP2E1 genes. Cyp2e1 protein expression was studied in a variety of tissues and a sexual dimorphism in its levels in some tissues was noted. Acetone treatment induced the Cyp2e1 protein in all of the tissues studied in both sexes, but this Cyp2e1 protein induction was not accompanied by an increase in Cyp2e1 mRNA levels. Indeed, mRNA levels were seen to be decreased on treatment, suggesting that acetone administration affects either mRNA translation efficiency or protein stability. Of a wide range of drugs known to modify other cytochrome P450 levels only diethylnitrosamine had a significant effect on Cyp2e1, causing a decrease in protein levels.

Relative expression of cytochrome P450 isoenzymes in human liver and association with the metabolism of drugs and xenobiotics

Cytochrome P450s play a central role in the metabolism and disposition of an extremely wide range of drugs and chemical carcinogens. Individual differences in the expression of these enzymes may be an important determinant in susceptibility to adverse drug reactions, chemical toxins and mutagens. In this paper, we have measured the relative levels of expression of cytochrome P450 isoenzymes from eight gene families or subfamilies in a panel of twelve human liver samples in order to determine the individuality in their expression and whether any forms are co-regulated. Isoenzymes were identified in most cases on Western blots based on the mobility of authentic recombinant human cytochrome P450 standards. The levels of the following P450 proteins correlated with each other: CYP2A6, CYP2B6 and a protein from the CYP2C gene subfamily, CYP2E1 and a member of the CYP2A gene subfamily, CYP2C8, CYP3A3/A4 and total cytochrome P450 content. Also, the levels of two proteins in the CYP4A gene subfamily were highly correlated. These correlations are consistent with the relative regulation of members of these gene families in rats or mice. In addition, the level of expression of specific isoenzymes has also been compared with the rate of metabolism of a panel of drugs, carcinogens and model P450 substrates. These latter studies demonstrate and confirm that the correlations obtained in this manner represent a powerful approach towards the assignment of the metabolism of substrates by specific human P450 isoenzymes.

The human hepatic cytochromes P450 involved in drug metabolism

The cytochromes P450 are a superfamily of hemoproteins that catalyze the metabolism of a large number of xenobiotics and endobiotics. The type and amount (i.e., the animal's phenotype) of the P450s expressed by the animal, primarily in the liver, thus determine the metabolic response of the animal to a chemical challenge. A majority of the characterized P450s involved in hepatic drug metabolism have been identified in experimental animals. However, recently at least 12 human drug-metabolizing P450s have been characterized at the molecular and/or enzyme level. The characterization of these P450s has made it possible to "phenotype" microsomal samples with respect to their relative levels of the various P450s and their metabolic capabilities. The purpose of this review is to compare and contrast the human P450s involved in drug metabolism with their related forms in the rat and other experimental species.

The role of specific cytochromes P450 in the formation of 7,12-dimethylbenz(a)anthracene-protein adducts in rat liver microsomes in vitro

The role of specific cytochrome P450 (P450) isoforms in the formation of adducts of 7,12-dimethylbenz(a)anthracene metabolites and membrane proteins has been investigated in vitro with microsomal fractions prepared from rats pretreated with various isoenzyme selective inducers. The effects of isoenzyme selective inhibitors were also evaluated. Adduct formation was shown to be mediated by P450 catalysed reactions but was unaltered, relative to untreated animals, in membranes from pyrazole- and clofibrate-treated animals suggesting that CYP2E1 and CYP4A1 are not involved in this process. However, adduct formation was significantly increased in microsomes from Sudan III-, phenobarbital- and dexamethasone-treated rats, suggesting the involvement of the CYP1A, CYP2B and CYP3A subfamilies, respectively. These conclusions were further supported by the finding that adduct formation in these microsomes could be inhibited by the isoenzyme-selective inhibitors alpha-naphthoflavone, metyrapone and troleandomycin, respectively.

Endogenous xenobiotic enzyme levels in mammalian cells

The response of mammalian cell lines to chemicals depends, in part, on the exogenous activation system used for the induction of a biological response. This could be attributed to differences in the expression of enzymes involved in xenobiotic metabolism. We have measured the activities of benzo[a]pyrene hydroxylase, dimethylaminoazobenzene N-demethylase, catalase, superoxide dismutase, peroxidase and glutathione-S-transferase in human lymphoblast TK6, mouse lymphoma L5178Y, Chinese hamster ovary (CHO) and lung (V79) and mouse C3H10T1/2 cell lines as well as in primary hepatocytes and S9 preparations of liver from male F344 rats. Nitroreductase was also measured in some of these preparations. Human lymphoblast TK6 and mouse C3H10T1/2 cells had the capacity to metabolize dimethylaminoazobenzene and the latter cell line also metabolized benzo[a]pyrene, indicating the presence of constitutive mono-oxygenase activity. Cytochrome P450 could not be detected spectrophotometrically in the cell lines. Western blot analysis indicated that P450 from the P450IIA family is expressed in C3H10T1/2 cells. Reactivity was also observed with an antibody to P450IA2; however, the identity of this protein remains uncertain. Superoxide dismutase, catalase and peroxidase, which protect cells against oxygen radical damage, were found in all the cell lines and in rat hepatocytes and S9. The human lymphoblast TK6 cell line, however, had the least of each of these three enzymes. Glutathione-S-transferase activity was detected at varying levels in all cell types. Nitroreductase activity was high in S9 and Chinese hamster ovary cells and lower in mouse lymphoma and Chinese hamster V79 cells.

Differential effects of recombinant interferon alpha on constitutive and inducible cytochrome P450 isozymes in mouse liver

The hepatic cytochrome P450 (P450)-dependent monooxygenase system is subject to regulation by a variety of xenobiotics and endogenous factors. During infection and inflammation the P450 system is usually suppressed, but the factors responsible for this phenomenon and the P450 isozymes involved have not been identified conclusively. We have studied the effects of a specific inflammatory mediator, recombinant interferon alpha, on the constitutive and inducible expression of P450 isozymes (from the CYP1A, CYP2B, and CYP2C) gene families using isozyme preferred substrates and Western blot analysis. Both increases and decreases in P450 levels occurred in response to interferon alpha. Suppression of constitutive P450 isozyme expression occurred and was shown to involve a decrease in steady-state protein expression. The induction of 7-ethoxyresorufin O-deethylase activity by 3-MC was potentiated whereas induction of 7-pentoxyresorufin- and 7-benzyloxyresorufin O-dealkylases by PB was suppressed by interferon alpha. These data demonstrate that the effects of interferon alpha on the P450-dependent monooxygenase system are complex, involving differential regulation of several isozymes. Both direct and indirect mechanisms may participate in these phenomena.

Development and design of a novel in vivo chamber implant for the analysis of microbial virulence and assessment of antimicrobial therapy

An accurate reflection of the pathogenicity of microorganisms and the therapeutic effects of antimicrobial agents on their growth necessitates testing within an in vivo environment. We have developed a novel diffusion chamber, incorporating two 0.22 microns membrane filters, for the growth of in vivo organisms. The chamber, which is implanted intraperitoneally into the rat, has an external sampling portal. This portal allows multiple and sequential sampling of the microbial inoculum without killing the rat, thus significantly reducing the total number of animals used in such studies. In addition, the chamber is superior to other reported implants since it is well tolerated, reusable, easily constructed and can be used within two days of implantation. Staphylococcus epidermidis and a toxic shock syndrome toxin-1 (TSST-1) producing strain of S. aureus have been successfully grown within in vivo chambers, with 10(8)-10(9) organisms per millilitre being recovered within 48 h. Scanning electron microscopy revealed clusters of staphylococci and fibrous material adhering to the inner surface of the filters, with numerous phagocytic cells attached to the outer side. Western immunoblotting indicated that higher levels of TSST-1 were produced by S. aureus grown in vivo as opposed to cells grown in vitro.

Metabolism of 7,12-dimethylbenz[a]anthracene in hepatic microsomal membranes from rats treated with isoenzyme-selective inducers of cytochromes P450

Previous work has shown that member(s) of the cytochrome P450IIC sub-family play significant roles in the formation of diols of 7,12-dimethylbenz[a]anthracene (DMBA) and are particularly important in formation of the proximate carcinogen (DMBA-3,4-diol). To further characterize the role of members of this subfamily in DMBA-diol formation and to assess the part played by other P450s, DMBA metabolism has been investigated in microsomes prepared from animals pre-treated with isoenzyme selective inducers. The rates of formation of DMBA-diols in membranes from phenobarbital-treated rats were very low when NADH was used as reductant and rates were not altered when NADPH and NADH were used in combination rather than using NADPH alone. This suggests that cytochrome b5 is not involved in DMBA-diol formation in these membranes. Treatment of animals with clofibrate, pyrazole and dexamethasone produced regio-selective alterations in the rates of formation of DMBA-diols at the -3,4-, -5,6- and -8,9- positions. However, none of the inducers caused increases in the rates of DMBA-diol formation of any great magnitude suggesting that the isoforms which are the major induced proteins (P450IVA1, P450IIE1 and P450IIIA1) do not play a significant role in diol formation. The content of other P450s in these membrane are also altered and these were investigated by Western blot using antibodies to P450IIC6, P450IIB1 and P450IIIA1. The results of the Western blots show that the effects of the inducing agents on DMBA-diol formation can be explained by alterations of members of the P450IIC and P450IIB subfamilies.

The contribution of specific cytochromes P-450 in the metabolism of 7,12-dimethylbenz[a]anthracene in rat and human liver microsomal membranes

The role of specific cytochrome P-450 isoenzymes in the regio-selective metabolism of 7,12-dimethylbenz[a]anthracene (DMBA) has been studied in microsomal membranes from rat and human liver. An antibody inhibition study using membranes from phenobarbital-treated rats demonstrates that a member(s) of the CYP2C family accounts for up to 90% of the formation of the proximate carcinogen, DMBA-3,4-diol, and makes significant contributions to the formation of DMBA-5,6-diol and DMBA-8,9-diol. In these membranes the formation of DMBA-5,6-diol can be entirely accounted by the combined activity of members of the CYP2C and CYP2B families. The metabolism of DMBA has been investigated in human using microsomes from 10 individuals and the metabolites formed by these membranes were found to be mainly hydroxymethyl- and -diol products. The rates of formation of each metabolite show considerable interindividual variation and there was no correlation between these rates for any pairing of metabolites. The CYP content in these membranes of specific members of families 1, 2, 3 and 4 did correlate with the rates of formation of individual metabolites. Surprisingly there was no correlation between the content of CYP2C and formation of DMBA-3,4-diol but an antibody to rat CYP2C6 partially inhibited the formation of this metabolite. The results indicate that in human both inducible sub-families of CYPs, particularly of the PB-type, and constitutively expressed CYPs may be important in DMBA metabolism and that each metabolite may be produced by the combined activity of several CYP isoforms.

Immunochemical detection of human liver cytochrome P450 forms related to phenobarbital-inducible forms in the mouse

Polyclonal antibodies generated to four distinct mouse liver phenobarbital-inducible cytochrome P450 isoforms were used to analyse related forms in human liver. N-terminal sequence analysis and biochemical properties of the P450s used as antigens suggest that they belong to P450 subfamilies IIB (P450PBI), IA (P450PBII), IIC (P450PBIII) and IIA (P450Coh). In immunoblot analysis, anti-P450PBII detected a single protein presumed to be P450IA2 in all the human livers tested. No proteins corresponding with P450IA1 could be detected. Anti-PBIII and anti-P450Coh antibodies each detected one band (54 and 48 kDa, respectively) in the liver samples. No bands were revealed by anti-P450PBI antibody. Protein dot-immunobinding analysis showed that P450s immunodetectable by anti-P450PBII, anti-P450PBIII and anti-P450Coh antibodies are expressed in human liver (range 9 to 69 pmol P450/mg protein). In immunoinhibition experiments the activity of 7-ethoxyresorutin O-deethylase (EROD) was blocked up to 90% by the anti-P450PBII antibody. Aryl hydrocarbon hydroxylase (AHH) was inhibited only by anti-P450PBIII, and coumarin 7-hydroxylase (COH) only by anti-P450Coh antibody. Testosterone hydroxylations in positions 6 beta, 7 alpha, 15 alpha and 16 alpha were not affected significantly by any of the antibodies. These data suggest that the human liver P450IA2 is responsible for most of the elevated EROD activity, P450s in the IIC subfamily for constitutive AHH and P450s in the IIA subfamily for all of COH activity.

Constitutive and inducible expression of human cytochrome P450IA1 in yeast Saccharomyces cerevisiae: an alternative enzyme source for in vitro studies

A cDNA of human cytochrome P450IA1 was expressed in yeast Saccharomyces cerevisiae on a multicopy plasmid under the control of the constitutive GAPFL or the inducible PHO5 promoter. Microsomes of transformed yeast contained substantial amounts of the heterologous enzyme as determined by reduced CO-difference spectra (156-68 pmol/mg). Enzyme kinetics with 7-ethoxyresorufin as substrate resulted in a Km value of 92 nM and a Vmax value of 223 pmol/mg/min, which is comparable to data obtained with human liver microsomes. The antimycotic drug ketoconazole (Ki = 22nM) as well as the isozyme specific P450 inhibitor alpha-naphthoflavone (Ki = 1.2 nM) were shown to be strong inhibitors of human P450IA1. Taken together, these data show that heterologous P450 gene expression in yeast is a potent instrument for the study of enzyme specific parameters and might be used to answer further questions with regard to substrate specificity as well as drug interaction in a background with no interfering activities.

Changes in hepatic xenobiotic-metabolising enzymes in mouse liver following infection with Leishmania donovani

Infection of mice with Leishmania donovani resulted in decreased activities of several liver enzymes involved in the metabolism of xenobiotics. Microsomal membranes from infected livers contained reduced amounts of cytochromes P450 and b5 and NADPH-cytochrome P450 reductase. Several cytochrome P450 isoenzymes (P450-PB1, P450-PB3, P450-PCN and P450-UT1) and P450-mediated reactions (aminopyrine demethylase, aniline hydroxylase, benzphentamine demethylase and ethoxycoumarin deethylase) were affected similarly. The metabolism of two carcinogens (nitrosodimethylamine and 7,12-dimethylbenz[a]anthracene) by liver microsomal membrane preparations was also reduced. Leishmania infection caused an increase of cytosolic epoxide hydrolase and microsomal epoxide hydrolase and NADH-cytochrome b5 reductase were unaffected. The results suggest that Leishmania-infected animals are likely to have altered responses to exogenous toxins compared to uninfected animals.

Identification of the human liver cytochrome P-450 responsible for coumarin 7-hydroxylase activity

1. We have constructed a full-length human liver cytochrome P450IIA cDNA from a partial-length clone by oligonucleotide-directed mutagenesis, and subcloned it into the monkey kidney (COS-7) cell expression vector, pSVL. 2. The cDNA encodes a 49 kDa protein with coumarin 7-hydroxylase (COH) activity which cross-reacts with antisera to the mouse cytochrome P-450 isoenzyme responsible for COH activity and comigrates with a human liver microsomal protein. 3. Western blot analysis of a panel of human livers indicates that the level of the 49 kDa protein, detected using antisera to either the mouse COH P-450 or rat P450IIA1 protein, correlates very highly with COH activity. 4. Antisera to the rat P450IIA1 protein can inhibit COH activity in human liver microsomes. Taken together, these data indicate that a member of the P450IIA subfamily is responsible for most, if not all, of the COH activity in human liver.

Differences in the cytochrome P-450 isoenzymes involved in the 2-hydroxylation of oestradiol and 17 alpha-ethinyloestradiol. Relative activities of rat and human liver enzymes

The metabolism of oestradiol and 17 alpha-ethinyloestradiol to their 2-hydroxy derivatives is an important determinant in their biological effects. In this work, we have investigated which rat or human cytochrome P-450 isoenzymes are involved in catalysing these reactions. Oestradiol 2-hydroxylation was catalysed by a wide variety of rat cytochrome P-450s from gene families P450IA, P450IIB, P450IIC and P450IIIA. Interestingly, 17 alpha-ethinyloestradiol, which only differs structurally from oestradiol at a position distant from the site of oxidation, was metabolized predominantly by members of the P450IIC gene subfamily. In order to establish which enzymes are responsible for the oxidation of these substrates in man, antibodies to rat liver cytochrome P-450 isoenzymes were used to inhibit these reactions in a panel of human liver microsomal fractions. Also, possible correlations between the proteins recognized by the antibodies and the 2-hydroxylation rate were determined. These experiments provide evidence that 2-hydroxylation of 17 alpha-ethinyloestradiol in man is catalysed by cytochromes from the P450IIC, P450IIE and P450IIIA gene families. In contrast, the major proteins involved in oestradiol metabolism are from the P450IA gene family, although members of the P450IIC and P450IIE gene families may also play a role. These data demonstrate that the differences in the capacity of rat P-450s to metabolize these substrates are also present in the comparable enzymes involved in man, and that a variety of factors will determine the rate of disposition of these compounds in man.

Hepatic microsomal N-hydroxylation of adenine to 6-N-hydroxylaminopurine

The enzymatic N-hydroxylation of the purine base adenine to the genotoxic and mutagenic compound 6-N-hydroxylaminopurine is reported for the first time. Adenine was N-oxygenated in vitro by aerobic incubations with 3-methylcholanthrene or isosafrole induced microsomal fractions of rat liver homogenates and NADPH. The formation of 6-N-hydroxylaminopurine in the incubation mixtures under widely differing conditions was assayed using newly-developed, high-performance liquid- and thin-layer chromatographic methods. Optimal reaction conditions and kinetic parameters were determined. Neither superoxide anion nor hydrogen peroxide was directly involved in the N-hydroxylation reaction. Oxidases like xanthine oxidase and peroxidase (in the presence of hydrogen peroxide) did not catalyse this N-hydroxylation. The involvement of cytochrome P-450 isoenzymes in this reaction is supported by the observation that the N-hydroxylation is only observed after pretreatment of the rats with 3-methylcholanthrene or isosafrole. Other inducers (phenobarbital, ethanol, 5-pregnen-3 beta ol-20-one-16 alpha-carbonitrile) were without effect. This is the first example of the microsomal transformation of an endogenous substance to a toxic derivative by usually foreign substances (xenobiotics) metabolizing cytochrome P-450 isoenzymes. The significance for the in vivo situation is discussed on the basis of the data obtained in this study.

Enhanced demethylation and denitrosation of N-nitrosodimethylamine by human liver microsomes from alcoholics

The metabolism of N-nitrosodimethylamine (NDMA) was investigated in incubations with human liver microsomes from alcoholics and control patients who suffered from other diseases, but had a histological normal liver. All of the microsomal samples studied were able to metabolize NDMA at various concentrations to both formaldehyde and nitrite. Analysis of the liver microsomes from alcoholics revealed that both enzymatic activities--formaldehyde and nitrite formation--were enhanced several times as compared to the control patients. The results point to the fact that alcoholics metabolize NDMA at a higher rate probably due to the induction of one or more ethanol-inducible human liver cytochromes (cyt.) P450. The question if alcoholics therefore possess a higher risk for carcinogenic events is discussed.

Purification and properties of cytochrome P-450 from liver microsomes of phenobarbital-treated marmoset monkeys (Callithrix jacchus)

One form of cytochrome P-450 from phenobarbital-induced marmoset liver was purified to apparent electrophoretic homogeneity and compared with the major inducible form isolated from rat liver. Whereas spectral properties and molecular weights, as well as catalytic activities towards aminopyrine and ethylmorphine N-demethylation are quite similar, rates of O-dealkylation with enzymes from the two species are considerably different. While ethoxycoumarin deethylation for the marmoset cytochrome is about one-fortieth of that for the rat, ethoxyresorufin and even pentoxyresorufin dealkylations for the marmoset form are not detectable. By contrast, aldrin epoxidation as catalyzed by this cytochrome is about three times as high as that obtained from the rat.

Microsomal induction, alcohol, and lipoprotein metabolism: is there a three-way relationship?

The role of ethanol as a microsomal enzyme-inducing agent and as a modulator of lipid metabolism is reviewed. In an attempt to ascertain the mechanisms underlying the latter effects we examined the changes in hepatic triglyceride lipase (HTGL), hepatic high density lipoprotein (HDL) binding, and apolipoprotein secretion mediated by ethanol in a variety of experimental situations. Chronic administration of ethanol to rats decreased the ability of the liver to secrete HTGL, but primary liver cultures prepared from both ethanol and sucrose-fed rats secreted more HTGL when acutely exposed to ethanol over a 3-day period than when grown in a control medium. Hep G2 cells when grown in ethanol-containing medium for 14-28 days manifested increased HDL-binding capacity; apolipoprotein-A1 secretion was increased by ethanol but apolipoprotein B secretion was not affected. These findings suggest that increased plasma HDL concentrations which follow chronic ethanol ingestion may be due, at least in part, to increased hepatic secretion and reduced intravascular conversion of the lipoprotein despite enhanced reuptake by the liver; they are not consistent with an ethanol-mediated alteration in very low density lipoprotein secretion by the liver.

Transfection of a rat cytochrome P450b cDNA into C3H10T1/2CL8 mouse embryo fibroblasts

A cDNA clone of a rat cytochrome P450b gene was used to construct an expression vector driven by an SV40 promoter and containing a G418-resistance selectable marker. This bifunctional plasmid (pJRSL100) was transfected into the C3H 10T1/2CL8 mouse embryo fibroblast cell line. G418-resistant clones were selected and tested for enhanced sensitivity to the carcinogen 2-acetylaminofluorene (2-AAF), a compound that does not normally induce cytotoxicity or morphological transformation in these cells. One subclone, 19P450b-4, exhibited an increased cytotoxic response to 2-AAF compared to the parental C3H10T1/2CL8 cells. DNA analyses of this subclone showed increased number of copies of the cytochrome P450b and the appearance of unique restriction fragment bands relative to parental and control transfected cells. This subclone also exhibited increased levels of mRNA complementary to the P450b cDNA. Metabolism studies of 2-AAF in this subclone demonstrated an increase in the C-hydroxylated metabolites 1-, 3-, 5/9-, and 7-hydroxy-AAF compared with parental C3H 10T1/2CL8 cells. The results indicate that C3H 10T1/2CL8 cells can be transfected with gene/cDNAs to increase their metabolic competency and that such transfection may enhance the usefulness of the C3H 10T1/2CL8 cells in studies on chemically induced cytotoxicity and morphological transformation.

Amplification and increased expression of alpha class glutathione S-transferase-encoding genes associated with resistance to nitrogen mustards

Glutathione-dependent enzymes play a central role in the protection of cells from cytotoxic chemicals and have been implicated in the intrinsic and acquired resistance of tumors to cytotoxic drugs. We have generated a Chinese hamster ovary line resistant to bifunctional nitrogen mustards and in this report have characterized and isolated the protein that represents the major observable phenotypic difference between the drug-sensitive and drug-resistant cell lines. This purified protein is shown to be an alpha class glutathione S-transferase comprising YcYc subunits and possessing a pI value of approximately 8.0. The intracellular level of the Yc subunit is elevated greater than 40-fold in the drug-resistant cell line, which could account for the increase in glutathione S-transferase (RX:glutathione R-transferase; EC 2.5.1.18) activity toward both 1-chloro-2,4-dinitrobenzene and cumene hydroperoxide. Other glutathione S-transferase subunits within this gene family are also elevated. These changes are accompanied by a significant elevation in alpha class mRNA levels. Southern analysis indicates that the genes coding for these proteins are amplified 4- to 8-fold in the drug-resistant cell line. In addition, gamma-glutamyl transpeptidase [(5-glutamyl)-peptide:amino acid 5-glutamyltransferase; EC 2.3.2.2] activity is increased 3.6-fold in the drug-resistant Chinese hamster ovary cell line, which may explain the increase in cellular glutathione level. In this case no gene amplification was seen. These data indicate that gene amplification may be important in drug resistance toward alkylating agents and also that other enzymes in glutathione homeostasis are involved.

A form of cytochrome P450 in man, orthologous to form d in the rat, catalyses the O-deethylation of phenacetin and is inducible by cigarette smoking

1. In previous studies (Boobis et al., 1985b) it was shown that a monoclonal antibody (MAb 3/4/2), raised against rat cytochrome P450 form c, reacts with an isoenzyme(s) of cytochrome P450 in human liver. It was predicted that the epitope with which this antibody reacts should be present on both isoenzymes of the P450IA gene sub-family (the orthologues of forms c and d) in man (Edwards et al., 1987). 2. This antibody was used to probe 45 different samples of human liver, by the technique of Western blotting. With one exception, all of the samples contained immunoreactive protein, a single band at Mr 54,000 (orthologous to rat form d), which ranged in content from less than 0.5 to 33.5 pmol mg-1 microsomal protein. The content of the human orthologue of form c was below 0.5 pmol mg-1, the limit of detection of the assay. 3. Thirteen of the samples were from patients of known smoking status. Immunoreactive P450 content was 3.5-fold higher, and phenacetin O-deethylase activity was four-fold higher, in the smokers than in the non-smokers. 4. There was a highly significant correlation between the amount of immunoreactive cytochrome P450 and the high affinity component of phenacetin O-deethylase activity in both smokers and non-smokers. 5. It is concluded that the high affinity component of phenacetin O-deethylase activity in man is catalysed by the orthologue of rat cytochrome P450d, and that this isoenzyme is inducible by cigarette smoking. 6. In a number of previous publications it has been suggested that there is an association between the poor metaboliser (PM) phenotype for debrisoquine and impaired phenacetin O-deethylation. In the present study it was shown that not all subjects PM for debrisoquine are poor metabolisers of phenacetin.

Regulation of phenobarbital-inducible cytochrome P-450s in rat and mouse liver following dexamethasone administration and hypophysectomy

Cytochrome P-450s are a superfamily of haem-containing proteins involved in the metabolism of foreign compounds, as well as a variety of endogenous molecules. The hepatic levels and function of this diverse group of enzymes are determined by both constitutive and xenobiotic regulators. To examine the role of constitutive factors in cytochrome P-450 regulation, the levels of three distinct groups of phenobarbital-inducible hepatic cytochrome P-450s were studied following dexamethasone-treatment or hypophysectomy. In the mouse, dexamethasone was a potent inducer of proteins within the PB1 (subfamily IIC), PB2c (family III) and PB3 (subfamily IIB) families. These findings were strikingly different from the effects in the rat where essentially no effect on PB3 expression and indeed suppression of proteins related to PB1 was observed. Determination of mRNA concentration indicated that the difference was at the level of transcription. These findings indicate that synthetic glucocorticoids have the potential to be potent phenobarbital-like inducing agents. In the mouse hypophysectomy, like dexamethasone, induced hepatic mRNA of P-450 from families P-450IIB, P-450IIC and P-450III. Again a species difference was observed as this treatment had essentially no effect in the rat. These data in the mouse indicate that factors produced in the pituitary can either affect the transcription rate of phenobarbital and dexamethasone-inducible P-450 genes or influence the stability of their mRNAs.

Potentiation and suppression of mouse liver cytochrome P-450 isozymes during the acute-phase response induced by bacterial endotoxin

Infection and inflammation are known to affect the metabolism and disposition of drugs and carcinogens. We report a detailed study of the effects of bacterial endotoxin on the constitutive and inducible expression and activities of cytochrome P-450 isozymes from families P-450I, P-450IIB, P-450IIC and P-450III. In general high doses of high endotoxin caused very marked suppression of P-450 isozymes and associated activities. However, this effect was differential, the expression of certain isozymes being only slightly reduced whereas others were suppressed to almost undetectable levels. Low doses of endotoxin also gave differential effects on cytochrome P-450 expression. Of particular interest was the very marked potentiation of the inductive effect of both 3-methylcholanthrene and phenobarbital. In the case of 3-methylcholanthrene the 10-fold induction of activity was increased to 24-fold by concomitant endotoxin administration. In this regard it was interesting that 3-methylcholanthrene was an effective inducer of a wide variety of acute-phase proteins including metallothionein, serum amyloid A, fibrinogen and hemopexin. These data show that endotoxin, and therefore bacterial infection and inflammation, can have profound and differential effects on components of the cytochrome-P-450 monooxygenase system which could result in significant changes in susceptibility to the effects of drugs, chemical toxins and carcinogens.

Chromosomal organization of the cytochrome P450-2C gene family in the mouse: a locus associated with constitutive aryl hydrocarbon hydroxylase

Cytochromes P-450 represent a superfamily of enzymes with a central role in the metabolism of drugs, chemical toxins, and carcinogens. We have used genetic analysis to establish the complexity and catalytic function of a recently identified constitutively expressed murine hepatic cytochrome P-450 encoded by P450-2C. Southern blotting analysis shows that there are at least seven or eight genes within this family in the mouse and rat and that DNA restriction fragment length variants between different mouse inbred strains are observed. Analysis of recombinant inbred strains derived from these parent strains shows (i) these genes are clustered within 1 centimorgan, (ii) this gene family does not correspond to any of the known cytochrome P-450 loci or map near any well-characterized genomic markers, and (iii) this gene family segregates to within 1-2 centimorgans of a locus controlling constitutive aryl hydrocarbon hydroxylase activity in mice. With use of Chinese hamster/mouse somatic cell hybrids, the P450-2C locus was assigned to a region of mouse chromosome 19 that appears to be syntenic with the previously mapped human P450C2C locus on human chromosome 10. By in situ hybridization to mitotic mouse chromosomes, we have localized this region to the tip of chromosome 19. These results are discussed in relation to the physiological roles of this P-450 family in foreign compound metabolism and steroid oxidations.

Identification and quantitation in human liver of cytochromes P-450 analogous to rabbit cytochromes P-450 forms 4 and 6

1. Polyclonal antibodies raised against rabbit liver cytochrome P-450 isozymes form 4 and 6 have been used to probe human liver microsomes for analogous proteins using the Western blot technique. 2. Anti-Form 4 IgG recognized a protein in human liver microsomes from six subjects of identical molecular weight to purified rabbit liver cytochrome P-450 Form 4. 3. The equivalent content of cytochrome P-450 Form 4 in the same microsomes ranged from 1.1 to 9.1 pmol per mg protein. 4. Anti-Form 6 IgG recognized a protein in human liver microsomes from the same six subjects of slightly higher molecular weight than purified rabbit cytochrome P-450 Form 6. 5. The equivalent content of cytochrome P-450 Form 6 in the above microsomes ranged from 1.6 to 3.8 pmol per mg protein. 6. No significant correlations were observed between equivalent cytochrome P-450 Forms 4 and 6 content and 2-acetylaminofluorene N-hydroxylase, aminopyrine N-demethylase, benzyprene and aniline hydroxylase activities in liver microsomes from the six subjects tested.

Human cytochrome P-450 PB-1: a multigene family involved in mephenytoin and steroid oxidations that maps to chromosome 10

The cytochrome P-450 monooxygenase system possesses catalytic activity toward many exogenous compounds (e.g., drugs, insecticides, and polycyclic aromatic hydrocarbons) and endogenous compounds (e.g., steroids, fatty acids, and prostaglandins). Multiple forms of cytochrome P-450 with different substrate specificities have been isolated. In the present paper we report the isolation and sequence of a cDNA clone for the human hepatic cytochrome P-450 responsible for mephenytoin (an anticonvulsant) oxidation. The mephenytoin cytochrome P-450 is analogous to the rat cytochrome P-450 form termed PB-1 (family P450C2C). We also report that human PB-1 is encoded by one of a small family of related genes all of which map to human chromosome 10q24.1-10q24.3. The endogenous role of this enzyme appears to be in steroid oxidations. This cytochrome P-450 family does not correspond to any of the hepatic cytochrome P-450 gene families previously mapped in humans.

Monoclonal antibodies against human cytochrome P-450 recognizing different pregnenolone 16 alpha-carbonitrile-inducible rat cytochromes P-450

Six murine monoclonal antibodies against human hepatic cytochrome P-450 have been raised, using human liver microsomes (microsomal fractions) or semi-purified human cytochrome P-450 as immunogen. All six antibodies recognized the same highly purified of human liver cytochrome P-450 of molecular mass 53 kDa and gave rise to a single band at 53 kDa on immunoblots of human liver microsomes from 11 individuals. The antibodies also recognized proteins at 52 kDa and 54 kDa on immunoblots of control and induced male-rat liver microsomes, showing four different banding patterns. Antibodies HL4 and HP16 recognized a 52 kDa protein that was only weakly expressed in untreated rats and which was strongly induced by pregnenolone 16 alpha-carbonitrile (PCN) but not by phenobarbitone (PB), 3-methylcholanthrene (3MC), isosafrole (ISF), Aroclor 1254 (ARO), clofibrate or imidazole. HP10 and HL5 recognized a constitutive 52 kDa protein that was weakly induced by PCN but not by the other agents and was suppressed by 3MC and ARO. HP3 recognized a 54 kDa protein that was undetectable in control rats but was strongly induced by PB, PCN, ISF and ARO. HL3 appeared to recognize a combination of the proteins recognized by the other antibodies plus a 54 kDa protein that was weakly expressed in control rats. The constitutive proteins recognized were male-specific.

Multiple forms of cytochrome P-450 related to forms induced marginally by phenobarbital. Differences in structure and in the metabolism of alkoxyresorufins

The properties of five structurally related forms of cytochrome P-450 (PB1a, PB1b, PB2a, PB2b and PB2d) isolated from rats treated with phenobarbital have been compared with two forms isolated previously now termed 'PB1c' and 'PB2c'. These enzymes were characterized by their marginal inducibility by phenobarbital and are clearly distinguishable from the major phenobarbital-inducible proteins. PB1a and PB1b differed in Mr (52,700 and 52,900), absorption spectra and papain-proteolysis fragments. However, they had identical N-terminal sequences. PB2a, PB2b and PB2d had apparent Mr values of 52,900, 52,900 and 50,800. PB2a and PB2b had different N-terminal sequences and, after digestion with papain, gave different papain-proteolysis fragments. The N-terminal sequence of PB2b was similar to, but not identical with, that of pregnenolone-16 alpha-carbonitrile-inducible P-450 species, and PB2b was the protein most closely related to PB2c. The extent of immunocross-reactivity among the forms was stronger within, than between, the PB1 and PB2 groups. Even structurally similar forms were functionally diverse, exhibiting large differences in metabolic specificity in the dealkylation of a series of alkoxyresorufins.

A 50 kDa, actin-binding protein in plasma membranes of rat hepatocytes and of rat liver tumors

Plasma membranes from normal rat livers and rat liver tumors were compared by SDS-gel electrophoresis, and analyzed for actin-binding proteins by an 125I-labelled actin gel-overlay assay and by actin-affinity blotting. After treatment of rats with alpha-hexachlorocyclohexane and after induction of liver tumors by combined treatment with N-nitrosomorpholine and phenobarbital, liver plasma membranes prepared from these animals were found to be highly enriched in an actin-binding, 50 kDa polypeptide. This polypeptide seemed to be an integral protein of the plasma membrane as judged by Triton X-114-phase separation. Microsomes did not contain an actin-binding polypeptide in the 50 kDa region. Therefore, the 50 kDa protein is a candidate for interaction of actin with the liver cell plasma membrane. A possible relationship of this protein with the multi-specific, cholate transporting system of the rat liver plasma membrane is discussed.