Alan Anderson

The Ah receptor, cytochrome P450IA1 mRNA induction, and aryl hydrocarbon hydroxylase in a human lymphoblastoid cell line

The immunosuppressive and carcinogenic effects of aryl hydrocarbons such as 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) and 3-methylcholanthrene (MC) on B lymphocytes of adult rodents and the induction of cytochrome P450IA1 and aryl hydrocarbon hydroxylase (AHH) in human mitogen-activated lymphocytes and B-lymphoblastoid cell lines are believed to be mediated by the Ah receptor. However, there has not been a direct demonstration or characterization of the Ah receptor in defined populations of any of these cells. We report here the detection and characterization of an abundant, high-affinity B lymphocyte Ah receptor in the AHH-inducible human B lymphoblastoid cell line BCR-5. Our results represent the first characterization of a human lymphocyte receptor in a well-defined lymphocyte population. Sucrose density gradient analysis of BCR-5 cytosols incubated with [3H]TCDD revealed a characteristic 9 S specific binding peak. The maximum concentration of Ah receptor was about 200 fmol/mg protein. Specific binding to the Ah receptor was also detected with [3H]MC and, to a lesser extent, with [3H]benzo[alpha]pyrene. The apparent binding affinity (Kd) for [3H]TCDD (determined by saturation analyses) was about 5 nM. A specific [3H]TCDD-Ah receptor complex which sedimented at 5 S was extracted from nuclei of BCR-5 cells incubated at 37 degrees with [3H]TCDD. The Ah receptor of BCR-5 cells is thus similar in characteristics to that identified in other cell lines. When BCR-5 cells were exposed in culture for 24 hr to increasing concentrations of benz[alpha]anthracene there was a concentration-dependent increase in induction and a good correlation (r = 0.98) between the level of induced AHH activity and the relative abundance of cytochrome P450IA1 mRNA. The human B lymphoblastoid cell line BCR-5, therefore, has a complete regulatory mechanism for Ah receptor-mediated induction of cytochrome P450IA1 that is essentially the same as that which has been well established in many rodent species. The accessibility of human blood lymphocytes and the ease of establishment of B lymphoblastoid cell lines from any donor provide a source of pure cultures of human B lymphocytes which can be grown continuously in vitro for the study of mechanisms related to Ah receptor-mediated cytochrome P450IA1 induction, immunosuppression and carcinogenesis.

Oncodevelopmental and hormonal regulation of α1-fetoprotein gene expression

The main features of the oncodevelopmental biology of α1-fetoprotein (AFP) are reviewed. Progress made in the molecular biology of AFP gene regulation is discussed and we present our recent data on the mechanisms of AFP suppression by glucocorticoid hormones. The relationship between AFP gene transcription and cell replication is examined, and it is suggested that the degree of methylation of the AFP gene (or of co-methylated regulatory DNA sequences) conditions its response to hormones.

New proteins in the rat CYP2B subfamily: Presence in liver microsomes of the constitutive CYP2B3 protein and the phenobarbital-inducible protein product of alternatively spliced CYP2B2 mRNA

The rat CYP2B gene subfamily includes CYP2B1, CYP2B2 and CYP2B3. Translation of an alternatively spliced hepatic CYP2B2 mRNA would generate a CYP2B2 variant, CYP2B2v, having eight additional amino acid residues inserted between CYP2B2 positions 274 and 275. The presence of CYP2B3 and CYP2B2v in rat liver has yet to be demonstrated. cDNA expression vectors were obtained for CYP2B1, CYP2B2, CYP2B3 and CYP2B2v. All four proteins react with an anti-CYP2B1 antibody and can be resolved by SDS-PAGE. A CYP2B3-specific polyclonal antibody raised against an undecapeptide (SPVDPNTIDMT) from near the C-terminus of CYP2B3 detected a constitutive protein on immunoblots of rat liver microsomes, thus demonstrating that the CYP2B3 mRNA is translated in the liver. Similarly, a CYP2B2v-specific polyclonal antibody was raised against a peptide containing the eight additional amino acid residues (VSPAWMRE) predicted to be present in the CYP2B2v protein. It detected a phenobarbital- and Aroclor 1254-inducible protein in rat liver microsomes. Microsomes of Ad293 cells expressing cDNAs for CYP2B2 and CYP2B2v were used to metabolize 7,12-dimethylbenz[a]anthracene (DMBA), and the metabolites produced were compared with those generated by microsomes of cells expressing CYP2B1 cDNA. CYP2B2v had activity similar to that of CYP2B2 for DMBA metabolism. Both CYP2B2 forms preferentially catalyzed 12-hydroxylation, whereas CYP2B1 preferred 7-hydroxylation and exhibited turnover that was strongly suppressed as previously reported. These results demonstrate the existence in rat liver of two new CYP2B proteins: CYP2B3, the major constitutive CYP2B form, and CYP2B2v, which represents a rare case of non-aberrant alternative splicing among xenobiotic-metabolizing P450s.

Shuttle-vector mutagenesis by aflatoxin B1 in human cells: effects of sequence context on the supF mutational spectrum.

Rat-liver microsomes were used to activate aflatoxin B1 for in vitro modification of the pS189 shuttle vector and the related signature vector pSP189, both of which carry the Escherichia coli supF gene as a mutational target. Plasmid degradation was minimized by carrying out the in vitro incubations in the absence of Mg2+ ions. Modified plasmids were transfected into human Ad293 cells, then recovered and electroporated into E. coli MBM7070 for mutant identification. Point mutation frequencies for in vitro modified plasmids were dramatically increased over the spontaneous background level. Mutant plasmids were characterized by DNA-sequence analysis. The vast majority of aflatoxin B1-induced mutations were base substitutions, mostly G:C to T:A transversions. The spectrum of aflatoxin B1-induced mutations in the pS189 supF gene was very similar to that observed previously for the pS189 supF gene with aflatoxin B1 activated by cytochrome P450 1A2 (CYP1A2) synthesized from a cDNA expression vector within transfected Ad293 cells. However, the spectrum for pSP189, which carries the same supF gene as pS189, but with different surrounding sequences, exhibited some notable differences from that of pS189; this suggests that sequence context effects on mutagenic specificity can operate over distances of tens of base pairs.

Segmental homologies in the coding and 3′ non-coding sequences of rat liver cytochrome P-450e and P-450b cDNAs and cytochrome P-450e-like genes

The nucleotide sequence of a cloned cDNA insert carried by pHDQ14 was determined and found to code for the 107 C-terminal amino acids of rat liver cytochrome P-450e. Comparison of the pHQ14 cDNA sequence with those of cloned cDNAs for cytochrome P-450b and of 2 P-450e-like genes revealed segmental homologies that may have resulted from gene conversion. These results suggest that gene conversion may generate sequence variants of genes for rat liver cytochrome P-450s.

The detection of promutagen activation by extracts of cells expressing cytochrome P450IA2 cDNA: preincubation dramatically increases revertant yield in the Ames test.

Two slightly different protocols, the plate incorporation method and the preincubation method, are used in the Ames Salmonella mutagen test. Using a preincubation method, we recently demonstrated efficient activation of a number of food-derived promutagens by extracts of mammalian cells expressing cDNAs of rat-liver cytochrome P450IA2 and of a P450IA2-IA1 hybrid. We report here that, for 2-amino-3,4-dimethylimidazo[4,5-f]quinoline (MeIQ), 1-aminoanthracene and several other promutagens, preincubation dramatically increased the number of revertant colonies in the Ames test when extracts of cytochrome P450IA2-containing transfected cells or low concentrations of rat-liver extracts were used as the source of activating enzymes. At higher concentrations of rat-liver extract protein, the effect of preincubation was less pronounced. The effect of preincubation was not due to the low protein concentrations in the assays since increasing the total protein concentration did not abolish the requirement for preincubation for the detection of MeIQ activation at low concentrations of rat-liver extract. In experiments where P450IA2 synthesized in transfected cells in culture is used to study promutagen activation, the plate incorporation protocol may seriously underestimate the capacity of cell extracts to activate promutagens. Thus, interlaboratory comparisons become difficult and unnecessarily large quantities of cell extract protein may be needed to detect promutagen activation. Whenever Ames test assays are carried out under conditions where P450 concentration limits revertant yield, it would be prudent to examine both the preincubation and plate incorporation protocol.

Alternative splicing of mRNA encoding rat liver cytochrome P450e (P450IIB2)

Cytochrome P450e (P450IIB2) is a phenobarbital(PB)-inducible member of the rat liver P450IIB subfamily. Among P450 cDNA clones previously isolated from a cDNA library made from the liver of a single rat were several that contained P450e inserts, including PB13, PB16, and PB22. By nucleotide sequence analysis, the PB16 and PB22 inserts have now been found to contain an additional 24-bp segment not present in the PB13 insert or in previously reported P450e-coding sequences. According to the published P450e genomic sequence, the 24-bp segment is exactly at the junction of the fifth and the sixth exons and its sequence is identical to the first 24 bp of the fifth intron. Translation of this segment would add 8 amino acid residues to the P450e protein. To detect the alternatively spliced P450e mRNA, a synthetic oligodeoxyribonucleotide (oligo) corresponding to 18 of the 24 bp of the intronic sequence found in the PB16 and PB22 inserts was made. This oligo hybridized with a 2.1-kb RNA on Northern blots of liver RNA from PB- or Aroclor 1254-treated rats. Taken together, these results indicate that individual rats can possess both forms of P450e mRNA and that an alternative splicing mechanism is responsible for their formation.

Dexamethasone Induction of Murine CYP2B Genes Requires the Glucocorticoid Receptor

Hepatic cytochrome P450 (P450) enzymes metabolize exogenous and endogenous compounds, and many are inducible by xenobiotics. Their synthesis is tightly regulated, particularly through nuclear receptors. Expression of murine CYP2B genes is strongly activated by treatment with phenobarbital or phenobarbital-like inducers, and a detectable response requires the presence of the constitutive androstane receptor (CAR). However, other compounds can also induce murine CYP2B proteins. For example, dexamethasone is known to induce rat CYP2B1 and CYP2B2 and mouse CYP2B10. Using human HepG2 and rat H4IIEC3 hepatoma cell lines, we found that dexamethasone induction of CYP2B2 and Cyp2b10 luciferase reporters required the glucocorticoid receptor. Given the well known observation that CYP2B genes are not phenobarbital-responsive in cultured cell lines, the dexamethasone responsiveness of CYP2B reporter constructs in cell lines demonstrates in itself that the mechanism of dexamethasone induction is distinct from that of phenobarbital. We also analyzed the relative importance of the phenobarbital response unit (PBRU) and of a known glucocorticoid response element in this response. Both sites contributed to the response, but other sites were required for maximal induction. CAR was also found to act as an accessory factor to stimulate the response to dexamethasone by the glucocorticoid receptor. Furthermore, in H4IIEC3 cells, CAR activated the PBRU in the natural sequence context of the CYP2B2 and Cyp2b10 5′ flanks. In summary, there are at least two independent mechanisms of CYP2B induction: one involving phenobarbital and phenobarbital-like inducers and another involving glucocorticoids that induce via the glucocorticoid receptor with CAR acting as an accessory factor.

Positive regulation of the rat CYP2B2 phenobarbital response unit by the nuclear receptor hexamer half-site·nuclear factor 1 complex

A distal 163-bp fragment mediates phenobarbital responsiveness of the rat CYP2B2 gene. Multiple cis-acting elements in this fragment cooperate to form a phenobarbital response unit (PBRU). A nuclear factor 1 binding site and an associated nuclear receptor hexamer half-site are present in both the rat CYP2B2 PBRU and the homologous mouse Cyp2b10 sequence. Based on mutational analyses, the hexamer half-site has been reported to act positively in CYP2B2 and negatively in Cyp2b10. However, the specific mutations introduced into the rat and mouse hexamer half-sites were different, raising the possibility that the different roles attributed to the element may be a consequence of the different mutations used. We introduced into the rat CYP2B2 hexamer half-site the specific mutational change previously introduced into the Cyp2b10 sequence, where its effect was to increase the basal level of expression and to abolish phenobarbital responsiveness. In the rat context, this mutation reduced but did not abolish phenobarbital responsiveness and decreased, rather than increased, the basal level of expression. The residual phenobarbital responsiveness of the hexamer half-site mutant, as well as that of nuclear factor 1 mutants, indicates that these elements behave as positive accessory sites, suggesting that factors binding to them function as activators of phenobarbital-dependent transcription.

Werner's syndrome helicase participates in transcription of phenobarbital-inducible CYP2B genes in rat and mouse liver

Werners syndrome (WS) is a rare human autosomal recessive segmental progeroid syndrome clinically characterized by atherosclerosis, cancer, osteoporosis, type 2 diabetes mellitus and ocular cataracts. The WRN gene codes for a RecQ helicase which is present in many tissues. Although the exact functions of the WRN protein remain unclear, accumulating evidence suggests that it participates in DNA repair, replication, recombination and telomere maintenance. It has also been proposed that WRN participates in RNA polymerase II-dependent transcription. However no promoter directly targeted by WRN has yet been identified. In this work, we report mammalian genes that are WRN targets. The rat CYP2B2 gene and its closely related mouse homolog, Cyp2b10, are both strongly induced in liver by phenobarbital. We found that there is phenobarbital-dependent recruitment of WRN to the promoter of the CYP2B2 gene as demonstrated by chromatin immunoprecipitation analysis. Mice homozygous for a Wrn mutation deleting part of the helicase domain showed a decrease in basal and phenobarbital-induced CYP2B10 mRNA levels compared to wild type animals. The phenobarbital-induced level of CYP2B10 protein was also reduced in the mutant mice. Electrophoretic mobility shift assays showed that WRN can participate in the formation of a complex with a specific sequence within the CYP2B2 basal promoter. Hence, there is a WRN binding site in a region of DNA sequence to which WRN is recruited in vivo. Taken together, these results suggest that WRN participates in transcription of CYP2B genes in liver and identifies the first physical interaction between a specific promoter sequence and WRN.