Intralobular localization of different cytochrome P-450 form dependent monooxygenase activities in the liver of normal and inducer-treated rats.

1. Isolated periportal (PP) and perivenous (PV) hepatocytes from normal and inducer-treated rat livers were used to examine the following: intralobular localization of cytochrome P-450IA, P-450IIB, P-450IIE and P-450IIIA dependent monooxygenase activities and effects of phenobarbital (PB), beta-naphthoflavone (BNF) and pregnenolone-16 alpha-carbonitrile (PCN) on the zonal induction of these monooxygenases. 2. 7-Ethoxyresorufin O-deethylase (7EROD), 7-pentoxyresorufin O-dealkylase (7PROD) and N-nitrosodimethylamine N-demethylase (NAND) activities of PP hepatocytes were not significantly different from those of PV hepatocytes. 3. Ethylmorphine N-demethylase (EMND) activity was significantly higher in PV hepatocytes than in PP hepatocytes of normal rats. 4. EMND activity was induced by PCN and PB treatments. The response of EMND activity to PCN treatment was higher in PP hepatocytes than that in PV hepatocytes, and as a result the PV dominance disappeared following PCN treatment. 5. Extents of the response of this activity to PB treatment were similar in PP and PV hepatocytes, and PV dominance remained unchanged even after induction.     

Pregnenolone 16 alpha-carbonitrile-inducible P-450 gene family: gene conversion and differential regulation.

A cytochrome P-450 cDNA clone, designated pP450PCN2, homologous to the previously characterized pregnenolone 16 alpha-carbonitrile (PCN)-induced P-450 cDNA (pP450PCN1; F. J. Gonzalez, D. W. Nebert, J. P. Hardwick, and C. B. Kasper, J. Biol. Chem. 260:7435-7441), was isolated from a rat liver cDNA expression library by use of a polyclonal anti-P450PCN1 antibody. This P-450 cDNA contains 2,014 base pairs and yields an open reading frame of a protein consisting of 504 amino acids (Mr = 57,760). P450PCN2 cDNA and protein shared 90% nucleotide and 89% amino acid similarity with P450PCN1 cDNA and protein, respectively. The 5' untranslated, coding, and 3' untranslated regions between the two cDNAs share 94, 93, and 79% similarities, respectively. Nucleotide differences in the coding regions, however, are not evenly distributed. Complete homology exists between the two mRNAs for 425 nucleotides (positions 346 through 771). Other regions of 93 nucleotides containing only one difference and 147 nucleotides containing two differences exist toward the 3' end of the coding regions. These data suggest the possibility that a gene conversion event(s) have occurred subsequent to duplication of the ancestral P450PCN gene. Oligonucleotide probes unique for P450PCN1 and P450PCN2 cDNAs were used to examine the levels of their respective mRNAs in noninduced and PCN-induced liver cells and in male and female rats of various ages. P450PCN1 mRNA was not detectable in either male or female rats at any ages. In contrast, P450PCN2 mRNA was present at a low level in newborn rats and became elevated in both males and females at 1 week of age. Levels of p450PCN2 mRNA continued to increase in males until 12 weeks, whereas the mRNA in females reached peak levels at 2 weeks of age but declined continuously at the onset of puberty (between 4 and 12 weeks). These levels of P45PCN2 mRNA closely parallel the increases in testosterone 6 beta-hydroxylase activity and P450PCN2 protein level, as analyzed by Western blots. P450PCN1 mRNA was induced by PCN, dexamethasone, and phenobarbital in both male and female rats. P450PCN2 mRNA was not significantly induced by PCN or dexamethasone but was readily induced by phenobarbital. Testosterone 6 beta-hydroxylase activity was also induced severalfold by PCN, dexamethasone, and phenobarbital. These data demonstrate that P450PCN1 and P450PCN2 genes are differentially regulated during development and after administration of inducing compounds and furthermore suggest that both enzymes possess testosterone 6 beta-hydroxylase activity.     

Role of heme in phenobarbital induction of cytochromes P450 and 5-aminolevulinate synthase in cultured rat hepatocytes maintained on an extracellular matrix

When hepatocytes are cultured on matrigel, a reconstituted basement membrane matrix, mRNAs for cytochrome P450 class IIB1/2 and class III genes can be induced by treatment with phenobarbital. We took advantage of this new system to critically evaluate the role of heme as a regulator of these cytochromes P450 and of 5-aminolevulinate synthase (ALA-S), the rate-limiting enzyme in heme biosynthesis. Phenobarbital treatment of rat cultures increased the total amount of cytochrome P450, activities catalyzed by IIB1/2 (benzyloxy- and pentoxyresorufin O-dealkylases) and ALA-S activity, and ALA-S mRNA. Treatments with phenobarbital combined with succinyl acetone, an inhibitor of heme biosynthesis at the step of 5-aminolevulinate dehydrase, blocked the induction of the proteins for cytochrome P450IIB1/2 and cytochrome P450IIIAI, as indicated by spectral, immunological, and enzymatic assays. However, at the same time, succinyl acetone cotreatment failed to inhibit the induction of the mRNAs for cytochrome P450IIB1/2 and cytochrome P450IIIA. Lack of effect on the cytochrome P450 mRNAs was selective inasmuch as treatment with phenobarbital combined with succinyl acetone synergistically increased both ALA-S activity and ALA-S mRNA, presumably by blocking formation of heme, the feedback repressor of ALA-S. Indeed, the increase in ALA-S mRNA caused by the combined treatment was abolished by adding heme itself to the cultures. In contrast to earlier concepts, we conclude that in the intact hepatocyte, phenobarbital-induced cytochrome P450 induction is independent of changes in heme synthesis.     

Modulation of P-450 IIC7 and IIIA1,2 mRNA in pre-neoplastic liver. Effect of promotion by phenobarbital.

P-450 IIC7 and IIIA2 mRNAs are constitutively expressed in the hepatic tissue under developmental control. Both forms--as well as IIIA1, 90% homologous to IIIA2 mRNA--display positive modulation by phenobarbital a prototype inducer of the liver monooxygenases and a strong promoter of experimental chemical hepatocarcinogenesis. In the present work the variations in the concentration of these P-450 mRNA were studied in rats submitted to the hepatocarcinogenic protocol of Solt and Farber. We demonstrate that a decrease in the relative concentrations of P-450 IIC7 and IIIA1, 2 mRNA is set up along the tumor promotion stage. Animals--starting the experimental carcinogenic protocol at pubertal age--show a partial inhibition of the physiological expression of P-450 IIIA1,2 mRNA associated to male sex maturation. Administration of phenobarbital results in an acceleration of the pre-neoplastic process which is concomitant with an induction of P-450 IIC7 as well as IIIA1,2 at the earlier promotion stages. P-450 mRNA concentration markedly decreases as the preneoplastic process develops. While an impaired P-450 IIIA1,2 mRNA relative abundance is observed, an inversion of the modulation of P-450 IIC7 as well as of the male phenotype marker alpha-2u-globulin mRNA arises as the tumor promotion stage progresses, both mRNA becoming repressed in response to phenobarbital.     

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

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

Induction of cytochrome P-450 by glucocorticoids in rat liver. I. Evidence that glucocorticoids and pregnenolone 16 alpha-carbonitrile regulate de novo synthesis of a common form of cytochrome P-450 in cultures of adult rat hepatocytes and in the liver in vivo

We administered a series of steroid hormones to primary nonproliferating cultures of adult rat hepatocytes and found that dexamethasone and other glucocorticoids but not sex steroid hormones, mineralocorticoids, or derivatives of pregnenolone other than pregnenolone 16 alpha-carbonitrile (PCN) stimulated de novo synthesis of an immunoreactive protein, indistinguishable from the form of cytochrome P-450 (P450PCN) induced by PCN in rat liver. No difference were discerned among purified liver cytochromes from rats treated with dexamethasone, PCN or dexamethasone plus PCN, among proteolytic digests of these proteins, or among the immunoprecipitated cytochromes prepared from cultured hepatocytes treated with these steroids as judged by electrophoresis on polyacrylamide gels containing sodium dodecyl sulfate followed by immunoblot analysis. Of the steroids tested, dexamethasone proved to be the most efficacious inducer increasing the rate of synthesis of P450PCN from 0.05% of total cellular protein synthesis in incubated control cultures (measured as incorporation of [3H]leucine into immunoprecipitable P450PCN) to as much as 9.4% in cultures incubated for 5 days in medium containing dexamethasone (10(-5) M). As with traditional glucocorticoid-responsive liver functions, induction of immunoreactive P450PCN was dependent on the concentration of dexamethasone (10(-8) to 10(-5) M) and was promptly reversed upon withdrawal of the steroid. However, during the 24-h interval between 24 to 48 h of culture age the hepatocytes were refractory to either induction or de-induction of immunoreactive P450PCN even though continuous exposure of the cells to dexamethasone (including this interval) was mandatory for maximal induction of P450PCN at 120 h in culture. Unlike cultured rat hepatocytes, HTC hepatoma cultures failed to exhibit dexamethasone-responsive expression of immunoreactive P450PCN. We conclude that glucocorticoids and PCN constitute a specific "class" of synthetic and endogenous inducers of a single form of cytochrome P-450.     

Ethanol increases cytochromes P450IIE, IIB1/2, and IIIA in cultured rat hepatocytes

In intact rats, ethanol treatment has been associated with increases in hepatic levels of both P450IIB1/2 and P450IIE. When rat hepatocytes were cultured on an extracellular tumor matrix (Matrigel), exposure to ethanol from 48 to 96 h in culture resulted in increases in cytochromes P450IIE, IIB1/2, and IIIA. Cytochrome P450IIE was detected immunologically and enzymatically, using two activities associated with cytochrome P450IIE, p-nitrophenol hydroxylation, and acetaminophen activation to a metabolite that binds to glutathione. The content of cytochrome P450IIE in freshly isolated cells decreased when the cells were placed in culture. Exposure of the cultured hepatocytes to ethanol from 48 to 96 h after inoculation resulted in an increase in cytochrome P450IIE compared to untreated cultured cells. In addition, in culture, the amount of enzymatically active protein after ethanol treatment was equal to that in hepatocytes freshly isolated from intact animals. Ethanol treatment resulted in increases in cytochrome P450IIB1/2 compared to untreated cells, as shown immunologically and by increased benzyloxyresorufin dealkylase activity. However, phenobarbital induced cytochrome P450IIB1/2 to higher levels, compared to ethanol. Ethanol and phenobarbital treatments both increased P450IIIA, as determined immunologically and by the amount of propoxycoumarin depropylase activity that is inhibited by triacetyloleandomycin. However, the amount of P450IIIA increased after ethanol treatment was less than that increased after treatment with dexamethasone in these cells. The ethanol-mediated increases in all four forms of cytochrome P450 in culture suggest that these increases in the intact animal result from direct effects of ethanol on the liver.     

Induction of cytochrome P-450 by glucocorticoids in rat liver. II. Evidence that glucocorticoids regulate induction of cytochrome P-450 by a nonclassical receptor mechanism

In the companion report we used primary cultures of adult rat hepatocytes to demonstrate that glucocorticoids comprise a "class" of compounds that stimulate de novo synthesis of a form of cytochrome P-450 (P450PCN) indistinguishable from that induced by the nonhormonal steroid pregnenolone 16 alpha-carbonitrile (PCN). Because induction of P450PCN is stereospecific for glucocorticoids and is dependent on the concentration of and the length of exposure to steroids it seemed possible that P450PCN represented another of the many genes whose expression is coordinately regulated by glucocorticoids bound to their specific cytoplasmic receptor and translocated into the nucleus. However, in cultured hepatocytes treated with glucocorticoids, synthesis of P450PCN failed to parallel synthesis of a typical glucocorticoid-responsive liver function, tyrosine aminotransferase, in the time course of induction, in the concentrations of glucocorticoids required for half-maximal induction, and in the order of effective steroids ranked by potency. Indeed, two moderately potent inducers of P450PCN either failed to induce tyrosine aminotransferase (spironolactone) or actually antagonized induction of tyrosine aminotransferase synthesis by glucocorticoids (PCN). Moreover, in the same cultures in which glucocorticoid induction of tyrosine aminotransferase was blocked by the presence of PCN or other previously identified antiglucocorticoids, synthesis of P450PCN was actually enhanced. We conclude that synthesis of P450PCN is a specific glucocorticoid-responsive liver function evoked by a novel mechanism readily distinguishable from the classic glucocorticoid receptor pathway.     

Hepatic P450 expression in hypothyroid rats: differential responsiveness of male-specific P450 forms 2a (IIIA2), 2c (IIC11), and RLM2 (IIA2) to thyroid hormone

Studies carried out in hypophysectomized adult rats have demonstrated that both thyroid hormone and GH can suppress hepatic expression of the steroid 6 beta-hydroxylase P450 2a (IIIA2). The present study further characterizes the influence of thyroid hormone on the expression of P450 2a and two other male-specific hepatic P450s, a steroid 2 alpha/16 alpha-hydroxylase, designated P450 2c (IIC11), and a steroid 15 alpha-hydroxylase, designated P450 RLM2 (IIA2). These studies were carried out in rats rendered hypothyroid by treatment with methimazole, which allows for the nonsurgical depletion of circulating T4, and in hypophysectomized rats. Hypothyroidism led to an increase in hepatic P450 2a (IIIA2) protein and mRNA in both male and female rats that was fully reversed by T4 replacement. In contrast, hypothyroidism decreased by 70-80% the expression of P450 2c (IIC11) activity and mRNA, but did not significantly alter the expression of P450 RLM2 (IIA2). The decrease in P450 2c (IIC11) was not reversed by T4 replacement, suggesting that it is a consequence of the loss of plasma GH pulses that occurs secondary to hypothyroidism. In agreement with these findings, T4 given to hypophysectomized rats partially suppressed the expression of P450 2a (IIIA2) mRNA, but not P450 2c (IIC11) or P450 RLM2 (IIA2) mRNA. A more complete suppression of P450 2a (IIIA2) mRNA as well as P450 2c (IIC11) mRNA was achieved when the hypophysectomized rats were treated with T3 at a supraphysiological, receptor-saturating dose. Although GH administered to intact male rats by continuous infusion fully suppressed all three male-specific P450 proteins and their mRNAs, the same treatment given to hypothyroid rats was only partially suppressive in the case of P450 2a (IIIA2) and P450 RLM2 (IIA2), unless combined with T4. In the case of P450 2c (IIC11), substantial suppression of the residual P450 present in hypothyroid rats was achieved by treatment with GH alone, despite persistent thyroid hormone deficiency. These studies demonstrate that while thyroid hormone is a negative regulator of P450 2a (IIIA2) expression and is required for the full suppression of that P450 and P450 RLM2 (IIA2) by the continuous plasma GH profiles associated with adult female rats, the suppression of P450 2c (IIC11) by continuous plasma GH is largely independent of the presence of thyroid hormone.     

The expression and metabolic activity of cytochrome P-450 isozymes in control and phenobarbital-induced primary cultures of rat hepatocytes

The expression and activity of the phenobarbital (PB)-inducible P-450 isozymes, P-450b and P-450e, and the major 3-methylcholanthrene (MC)-inducible form, P-450c, were studied in primary cultures of adult rat hepatocytes in T1, Leibovitz L-15 (L-15), and a modification of Waymouth 752/1 (Way) media. P-450 isozymes in initially isolated hepatocytes and control and PB-treated cultures were quantitated by Western blot analysis, and activity was determined with 7,12-dimethylbenz[a]anthracene (DMBA) as substrate. Data from the Western blot analysis correlated well with the metabolic activity toward DMBA. P-450b was consistently induced by PB in hepatocytes in T1 and to a lesser extent in Way. P-450e protein was constitutive in initially isolated cells, expressed in control cultures at a reduced level, and increased or maintained by PB in all three media. DMBA metabolite formation associated with P-450b and P-450e activity was induced by PB in hepatocytes in T1 and Way and was inhibited by antibodies to P-450b. P-450c was only infrequently expressed in freshly prepared hepatocytes, but was detected in all control and PB-treated cultures although at a much higher level in T1. Thus, the amounts of P-450 isozymes, their inducibility by PB, and their activity toward DMBA were found to be dependent on the medium. We have demonstrated enzyme induction and increased activity of the major PB-inducible isozymes in hepatocytes in T1; these are also associated with a change in the control of P-450c expression leading to enhanced constitutive expression and inducibility by phenobarbital.     

Regulation of cytochrome P-450p by phenobarbital and phenobarbital-like inducers in adult rat hepatocytes in primary monolayer culture and in vivo

Treatment of rats with phenobarbital increases the hepatic concentration of P-450p, a form of cytochrome P-450 believed to be controlled primarily by a mechanism that stereospecifically recognizes glucocorticoids like dexamethasone and anti-glucocorticoids like pregnenolone-16 alpha-carbonitrile [Schuetz, E.G., & Guzelian, P.S. (1984) J. Biol. Chem. 259, 2007]. To test the possibility that phenobarbital induces P-450p indirectly by increasing the availability of endogenous glucocorticoids in the liver, we added phenobarbital and phenobarbital-like inducers to primary monolayer cultures of adult rat hepatocytes incubated in serum-free medium without glucocorticoids and found stimulated de novo synthesis of P-450p measured as increased incorporation of [3H]leucine into immunoprecipitable P-450p protein. With some of the inducers, notably the organochlorine pesticides chlordane and trans-nonachlor, there was a greater accumulation of P-450p measured on quantitative immunoblots than could be accounted for by the increase in P-450p synthesis. "Pulse-chase" experiments confirmed that these compounds significantly lengthen the half-life of P-450p up to 60 h as compared to the values in control (11 h) or dexamethasone-treated (10 h) cultures. Treatment of rats with chlordane, trans-nonachlor, or other cyclodiene organochlorine pesticides confirmed that these agents increase the concentration of P-450p in liver microsomes analyzed on immunoblots of two-dimensional electrophoretic gels. The time courses of induction in trans-nonachlor-treated rats of P-450p protein and of P-450PB proteins induced by phenobarbital were similar as were the amounts of P-450PB mRNA and P-450p mRNA measured by hybridization to cloned cDNA probes. However, analysis of structure-activity relationships among polychlorinated biphenyls revealed that isomers with two ortho chlorinated positions maximally induced P-450PB whereas isomers with three and four ortho chlorines maximally induced P-450p in rats and in hepatocyte culture, respectively. We conclude that P-450p is induced by the phenobarbital class of inducers through direct contact with the hepatocytes involving decreased degradation of the protein and stimulation of its synthesis in a manner similar but not identical with that of P-450PB.     

Cloning of DNA complementary to cytochrome P-450 induced by pregnenolone-16 alpha-carbonitrile. Characterization of its mRNA, gene, and induction response

The major form of cytochrome P-450 (P-450PCN) was isolated from rats administered pregnenolone-16 alpha-carbonitrile (PCN). Messenger RNA coding for P-450PCN was enriched by polysome immunoadsorption and utilized to construct a library of cDNA clones in pBR322. P-450PCN clones were isolated from this library by differential colony hybridization using [32P]cDNA probes transcribed from PCN-induced and PCN-induced P-450PCN immunoenriched poly(A) RNA. The P-450PCN clone with the largest cDNA insert (pP450PCN-10) was verified to contain sequences complementary to P-450PCN mRNA by hybrid selection-translation. pP450PCN-10 was composed of approximately 1900 base pairs and had a restriction map that overlapped at least 3 other cDNA clones selected by differential colony hybridization. Denaturing-agarose gel electrophoresis and nitrocellulose blot-hybridization using nick-translated 32P-labeled pP450PCN-10 indicated that pP450PCN mRNA is 2500 +/- 150 nucleotides in length; pP450PCN-10, therefore, represents approximately 76% of its corresponding mRNA sequence. Southern blot analysis of rat DNA using pP450PCN revealed that approximately 50 to 60 kilobases of DNA reacted with the PCN probe, suggesting the P-450PCN gene is either a very large gene or other genomic segments exist that react with the probe, such as pseudogenes or related P-450 genes that share homology. The mechanism of P-450PCN induction was examined by isolating poly(A) RNA at various times after steroid administration and quantitating for P-450PCN mRNA using pP450PCN-10 as a hybridization probe. PCN administration produced a rapid elevation of P-450PCN mRNA which reached maximal levels (7-fold above control) 12 h after administration. In contrast, cytochrome P-450b mRNA, which is readily induced by phenobarbital, was only slightly elevated (approximately 2-fold) after PCN administration.     

Regulation of gene expression in adult rat hepatocytes cultured on a basement membrane matrix

Freshly isolated adult rat hepatocytes, when cultured on type I collagen (commercially available as Vitrogen), assume a polygonal shape, form a stable monolayer within 24 hours, but lose the capacity to express some liver-specific functions over time in culture. We incubated hepatocytes in a serum-free medium on a reconstituted basement membrane gel, "matrigel" (prepared from an extract of extracellular matrix of the murine Engelbreth-Holm-Swarm sarcoma), and observed that the cells adhered firmly, remained rounded as single cells or clusters, and maintained liver-specific gene expression for more than 1 week in vitro. Hepatocytes on matrigel secreted substantially higher amounts of albumin, transferrin, haptoglobin, and hemopexin, Northern blot analyses of extracted cellular RNA, expressed increased amounts of mRNA for the liver-specific protein albumin (as compared with cells on vitrogen). In cultures treated with phenobarbital, cytochrome P-450b, and cytochrome P-450e, mRNAs and proteins were barely detectable in cells on Vitrogen but were induced to levels similar to those in the liver in vivo in matrigel cultures. Likewise, the use of matrigel greatly enhanced the induction of mRNA and protein for P-450c by 3-methylcholanthrene and for P-450p by steroidal and nonsteroidal inducers. However, neither substratum permitted induction of P-450d by 3-methylcholanthrene, suggesting that the effects of matrigel are selective even for expression in liver of members of the superfamily of cytochrome P-450 genes. Within 5 days in cultures on Vitrogen, hepatocytes expressed detectable amounts of fetal liver aldolase activity and also mRNA for vimentin and type I collagen, each considered a phenotypic change reflecting hepatocyte "dedifferentiation." None of these was present in cells on matrigel. Responsiveness to mitogenic stimuli, as judged by incorporation of 3H-thymidine into DNA, was also decreased in hepatocytes cultured on matrigel. Finally, there was a remarkable increase in the levels of both matrices during the first 2 days in culture. However, the continuously cytoskeleton mRNA over time in culture than did the rounded cells on matrigel. We conclude that hepatocytes cultured on matrigel, as opposed to the standard collagen, exhibit remarkably enhanced expression of many liver-specific functions.     

Generation of specific antibodies and their use to characterize sex differences in four rat P450 3A enzymes following vehicle and pregnenolone 16alpha-carbonitrile treatment

The purpose of this study was to identify isozyme-specific antibodies and use them to determine the expression levels of four P450 3A enzymes in the livers of vehicle- and pregnenolone 16alpha-carbonitrile (PCN)-treated rats of both sexes, since previous work on mRNA levels has shown considerable sexual dimorphism. Using Western blot analysis with four isozyme-specific antibodies, we show that P450 3A1, 3A2, and 3A9 were expressed in vehicle-treated adult female rats at very low levels whereas P450 3A18 was not detected. PCN treatment of females strongly induced the expression of P450 3A1 in the livers with protein product increases of 214-, 3-, and 5-fold for P450 3A1, 3A2, and 3A9, respectively, and P450 3A18 was induced to 3.7 pmol/mg protein. In contrast, all four P450 3As were detected in livers of vehicle-treated males, in the order of 3A2 > 3A18 > 3A9 approximately = 3A1. The protein product increases induced by PCN treatment of male rats were 92-, 3-, 6-, and 16-fold for P450 3A1, 3A2, 3A9, and 3A18, respectively.