Ectopic expression of MHC class II genes (RT1.B(I) beta/alpha) in rat hepatocytes in vivo and in culture can be elicited by treatment with the pregnane X receptor agonists pregnenolone 16 alpha-carbonitrile and dexamethasone

The synthetic steroid, pregnenolone-16-alpha-carbonitrile (PCN), has served for decades as a probe for a postulated series of hepatic defenses activated under situations of environmental "stress". PCN, an antiglucocorticoid, and also such glucocorticoids as dexamethasone (Dex) appear to stimulate hepatic metabolism and elimination of xenobiotics by binding to the nuclear pregnane X receptor (PXR) which then interacts with a distinct DNA response element associated with induction of cytochrome P450 3A genes. To explore the full domain of genes controlled by PCN/PXR, we used differential display to detect rat liver mRNA species selectively induced by PCN or by Dex. Sequence analysis identified one of many PCN induced cDNA fragments as RT1.B(I)beta, a member of the major histocompatability class II (MHC) gene family usually found only in antigen presenting cells. Northern blot analysis of RNA from rat liver or from cultured hepatocytes confirmed that amounts of RT1.B(I)beta mRNA and also of its companion gene, RT1.B(I)alpha mRNA, became readily detectable within 3-6 hours following treatment with PCN or Dex, whereas no induction was observed in spleen RNA. Induction by PCN of RT1.B(I)beta immunoreactive protein was localized to the hepatocytes as judged by immunofluorescence. We conclude that ectopic expression of MHC II genes, an unprecedented effect of steroids or drugs, is rapidly evoked by PCN acting on the liver, directly. The concept of a set of genes coordinately controlled to maintain homeostasis in parenchymal tissues during toxic stress must now be extended to include the immune system.     

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.     

Xenobiotic-Induced Hepatocyte Proliferation Associated with Constitutive Active/Androstane Receptor (CAR) or Peroxisome Proliferator-Activated Receptor α (PPARα) Is Enhanced by Pregnane X Receptor (PXR) Activation in Mice

Xenobiotic-responsive nuclear receptors pregnane X receptor (PXR), constitutive active/androstane receptor (CAR) and peroxisome proliferator-activated receptor α (PPARα) play pivotal roles in the metabolic functions of the liver such as xenobiotics detoxification and energy metabolism. While CAR or PPARα activation induces hepatocyte proliferation and hepatocarcinogenesis in rodent models, it remains unclear whether PXR activation also shows such effects. In the present study, we have investigated the role of PXR in the xenobiotic-induced hepatocyte proliferation with or without CAR activation by 1,4-bis[2-(3,5-dichloropyridyloxy)]benzene (TCPOBOP) and phenobarbital, or PPARα activation by Wy-14643 in mice. Treatment with TCPOBOP or phenobarbital increased the percentage of Ki-67-positive nuclei as well as mRNA levels of cell proliferation-related genes in livers as expected. On the other hand, treatment with the PXR activator pregnenolone 16α-carbonitrile (PCN) alone showed no such effects. Surprisingly, PCN co-treatment significantly augmented the hepatocyte proliferation induced by CAR activation with TCPOBOP or phenobarbital in wild-type mice but not in PXR-deficient mice. Intriguingly, PXR activation also augmented the hepatocyte proliferation induced by Wy-14643 treatment. Moreover, PCN treatment increased the RNA content of hepatocytes, suggesting the induction of G0/G1 transition, and reduced mRNA levels of Cdkn1b and Rbl2, encoding suppressors of cell cycle initiation. Our present findings indicate that xenobiotic-induced hepatocyte proliferation mediated by CAR or PPARα is enhanced by PXR co-activation despite that PXR activation alone does not cause the cell proliferation in mouse livers. Thus PXR may play a novel and unique role in the hepatocyte/liver hyperplasia upon exposure to xenobiotics.     

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.     

Expression and regulation of the sterol half-transporter genes ABCG5 and ABCG8 in rats

The ABCG5 and ABCG8 genes encode half-transporter proteins that heterodimerize to form a transporter of plant sterols and cholesterol. The purpose of this study was to examine the expression and regulation of ABCG5 and ABCG8 at the mRNA level in Sprague-Dawley rats. Both ABCG5 and ABCG8 mRNA were expressed primarily in rat small intestine and liver, and gender-specific differences in expression were observed. The effects of treatment with a battery of microsomal enzyme inducers on ABCG5 and ABCG8 mRNA were examined; most treatments had no effect, but of three PXR ligands, PCN was an effective inducer, spironolactone was repressive, and dexamethasone was ineffective. The effects of a 1% cholesterol diet on the regulation of rat ABCG5 and ABCG8 were also examined, and compared with those in C57BL/6 mice. Cholesterol caused a suppression of ABCG5 and ABCG8 mRNA in rat liver, but the same treatment increased the expression of these genes in mouse liver. ABCG5 and ABCG8 mRNA was also induced by cholesterol in rat ileum, but not mouse ileum. These results suggest variation between rats and mice in regulatory mechanisms controlling ABCG5 and ABCG8 expression, and may explain some differences in lipid metabolism observed between these two species.     

Cytoplasmic localization of pregnane X receptor and ligand-dependent nuclear translocation in mouse liver

The pregnane X receptor (PXR) plays an important role in the response to xenobiotics and endogenous toxins. We have used a specific anti-PXR antibody in the Western blotting of mouse liver nuclear extracts to show that PXR is accumulated in the nucleus after treatment with 5-pregnen-3beta-ol-20-one-16alpha-carbonitrile (PCN), followed by an increase in Cyp3a11 mRNA. Expression of wild type PXR and various mutants as green fluorescent fusion proteins in mouse livers showed that PXR was retained in the cytoplasm from where PCN treatment translocated PXR into the nucleus. Furthermore, the xenochemical response signal, the nuclear translocation signal, and the activation function 2 domain were all required for the nuclear translocation to occur. Immunoprecipitation experiments using the hsp90 antibody demonstrated the presence of PXR in a complex with the endogenous cytoplasmic constitutive active/androstane receptor retention protein (CCRP) in HepG2 cells. Fluorescence resonance energy transfer analysis of mouse liver sections after co-expression of cyan fluorescent protein-CCRP and yellow fluorescent protein-PXR also indicated that CCRP and PXR were closely associated in vivo. Overexpression of exogenous CCRP increased the cytoplasmic level of the PXR.CCRP.hsp90 complex, whereas a decrease in endogenous CCRP by treatment with small interfering RNA for CCRP repressed the PXR-mediated reporter activity in HepG2 cells. We conclude that the CCRP mediates the retention of PXR in the cytosol and modulates the activation of PXR in response to PCN treatment.     

Identification of the cytochrome P-450 induced by macrolide antibiotics in rat liver as the glucocorticoid responsive cytochrome P-450p

We administered triacetyloleandomycin (TAO) to rats and found that this macrolide antibiotic is the most efficacious inducer of liver microsomal cytochrome P-450 (P-450) examined to date. Liver microsomes prepared from TAO-treated rats contained greater than 5.0 nmol of P-450/mg of protein and a single induced protein as judged by analysis on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. This protein comigrated with P-450p, the major form of P-450 induced in liver microsomes of rats treated with pregnenolone-16 alpha-carbonitrile (PCN) or dexamethasone (DEX). On immunoblots of such gels developed with antibodies to P-450p, the TAO-induced protein reacted strongly as a single band. There was strict parallelism between the amount of immunoreactive P-450p in liver microsomes prepared from untreated rats or from rats treated with phenobarbital, TAO, DEX, or PCN, the ability of these microsomes to catalyze conversion of TAO to a metabolite which forms a spectral complex, and the ethylmorphine and erythromycin demethylase activities. Antibodies to P-450p specifically blocked microsomal TAO metabolite complex formation and ethylmorphine and erythromycin demethylase activities. Moreover, anti-P-450p antibodies completely immunoprecipitated solubilized TAO metabolite complexes prepared by detergent treatment of liver microsomes obtained from TAO-treated rats. Finally, we found that the major form of P-450 isolated from liver microsomes of TAO-treated rats and purified to homogeneity was indistinguishable from purified P-450p as judged by molecular weights, spectral characteristics, enzymatic activities, ability to bind TAO, peptide maps, and amino-terminal amino acid sequences. We concluded that, in addition to glucocorticoids, macrolide antibiotics are specific inducers of P-450p.     

PXR agonism decreases plasma HDL levels in ApoE⁎3-Leiden.CETP mice

Pregnane X receptor (PXR) agonism has been shown to affect multiple steps in both the synthesis and catabolism of HDL, but its integrated effect on HDL metabolism in vivo remains unclear. The aim of this study was to evaluate the net effect of PXR agonism on HDL metabolism in ApoE?3-Leiden (E3L) and E3L.CETP mice, well-established models for human-like lipoprotein metabolism. Female mice were fed a diet with increasing amounts of the potent PXR agonist 5-pregnen-3β-ol-20-one-16α-carbonitrile (PCN). In E3L and E3L.CETP mice, PCN increased liver lipids as well as plasma cholesterol and triglycerides. However, whereas PCN increased cholesterol contained in large HDL-1 particles in E3L mice, it dose-dependently decreased HDL-cholesterol in E3L.CETP mice, indicating that CETP expression dominates the effect of PCN on HDL metabolism. Analysis of the hepatic expression of genes involved in HDL metabolism showed that PCN decreased expression of genes involved in HDL synthesis (Abca1, Apoa1), maturation (Lcat, Pltp) and clearance (Sr-b1). The HDL-increasing effect of PCN, observed in E3L mice, is likely caused by a marked decrease in hepatic SR-BI protein expression, and completely reversed by CETP expression. We conclude that chronic PXR agonism dose-dependently reduces plasma HDL-cholesterol in the presence of CETP.     

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

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

IF3, a novel cell-differentiation factor,highly expressed in murine liver and ovary

The IF3 gene was isolated by expression cloning from a cDNA library of mouse oocytes. This gene was revealed to have no homology to any known gene and its cDNA encodes a 202-amino acid protein that contains a signal-peptide sequence. Moreover, an IF3 isoform, IF3(2), was expressed in both liver and ovary. Its cDNA encoded a 92-amino acid protein contains a signal-peptide sequence, which may be an alternative splice and frameshift form of IF3. The mRNA of IF3s was expressed in oocytes, ovary, and liver. Moreover, the gene expression of IF3s was regulated in a development-dependent manner in preimplantation-embryo and liver. Both IF3(1) and IF3(2) isoforms induced the differentiation of 2T3 and ATDC5 cells to the osteogenic and chondrogenic phenotype, respectively, suggesting that IF3s may modulate the differentiation status. Our findings suggest that IF3 may be one of the secreted factors that regulate oogenesis and certain liver functions.     

Strong inhibition of estrone-3-sulfatase activity by pregnenolone 16alpha-carbonitrile but not by several analogs lacking a 16alpha-nitrile group

In recent years, development of potent inhibitors for estrogen sulfatases has become an actively pursued strategy for chemoprevention and/or chemotherapy of estrogen-dependent human breast cancers. We report here our findings that pregnenolone 16alpha-carbonitrile (PCN) is a potent inhibitor of estrone-3-sulfatase activity of rats and also humans. PCN inhibited in a concentration-dependent manner the desulfation of estrone-3-sulfate catalyzed by liver microsomal and nuclear fractions of female Sprague-Dawley rats. The inhibition of estrone-3-sulfatase activity in these two subcellular fractions showed a biphasic pattern, with a highly sensitive phase seen at 78 nM to 1.25 microm of PCN followed by a markedly less-sensitive phase at > 2.5 microm of PCN. Interestingly, several of PCN's structural analogs without a 16alpha-nitrile group showed little or no inhibitory effect on rat liver microsomal E(1)-3-sulfatase activity. Double-reciprocal analysis showed that the inhibition of rat liver microsomal E(1)-3-sulfatase activity by PCN was essentially competitive in nature. When microsomes from six human term placentas were tested for their E(1)-3-sulfatase activity, PCN showed a similar biphasic inhibition of placental E(1)-3-sulfatase. Likewise, several of its structural analogs showed little or no inhibitory effect on placental E(1)-3-sulfatase activity. Computational analysis of the D-ring structure of PCN and other structurally similar analogs used in the study suggests that the potent sulfatase-inhibiting activity of PCN may be partly due to its unique steric orientation and size of the 16alpha-nitrile group. This knowledge may be useful for the rational design of more potent steroidal inhibitors of E(1)-3-sulfatase by introducing an additional nitrile group to their C16alpha-position.     

Divergent effects of cycloheximide on the induction of class II and class III cytochrome P450 mRNAs in cultures of adult rat hepatocytes

We have previously reported that when hepatocytes isolated from adult male rats are cultured in serum-free medium on matrigel, a reconstituted basement membrane gel, it is possible to elicit a stimulation of gene expression for both Class II cytochrome P450b/e and Class III cytochrome P450p by phenobarbital treatment (E.G. Schuetz et al., 1990 J. Biol. Chem. 265, 1188-1192). In the present study, an investigation of the requirement of protein synthesis for the rise in mRNAs for these cytochromes, pretreatment of the cells with cycloheximide prior to adding phenobarbital or "phenobarbital-like" inducers to the culture medium inhibited induction of P450b/e mRNA (46-90%), whereas the accumulation of P450p mRNA was enhanced (2- to 19-fold). Heme depletion did not appear to explain these observations because the inhibitory effects of cycloheximide on the induction of P450b/e mRNA were not overcome by supplementation of the medium with exogenous heme or with delta-aminolevulinic acid. Because Class IIIA P450s are regulated by gender as well as by phenobarbital, we examined the basal expression of P450p mRNA in cultures of hepatocytes derived from male rats and found that cycloheximide treatment was without effect. However, in cultures of hepatocytes isolated from female rats, where P450p mRNA is barely detectable, cycloheximide treatment greatly enhanced expression of P450p mRNA. As was observed in the cultured cells, the treatment of living female rats with cycloheximide also increased the amounts of P450p mRNA to levels comparable to those found in livers of untreated male rats. Analysis of Northern blots hybridized with oligonucleotides specific for P450PCN1(IIIA1) and P450PCN2(IIIA2), respectively, revealed that untreated male rat liver and cultures of hepatocytes prepared from these animals expressed readily detectable amounts of P450PCN1(IIIA1) mRNA. Such analyses confirmed that cycloheximide treatment selectively increased P450PCN1(IIIA1) mRNA in female rat liver, whereas the amount of mRNA for P450PCN2(IIIA2), a closely related male-specific family member, was unaffected. We conclude that the pathways for the induction of P450b/e and P450p by phenobarbital, and the pathways for the gender-specific basal expression of P450PCN1(IIIA1) and P450PCN2(IIIA2) are not the same and can be distinguished by their differential response to inhibition of ongoing protein synthesis.