Project description: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.

Project description:Streptomyces griseolus ATCC 11796 contains two inducible, herbicide-metabolizing cytochromes P-450 previously designated P-450SU1 and P-450SU2 (P-450CVA1 and P-450CVB1, respectively, using nomenclature of Nebert et al. [D. W. Nebert, M. Adesnik, M. J. Coon, R. W. Estabrook, F. J. Gonzalez, F. P. Guengerich, I. C. Gunsalus, E. F. Johnson, B. Kemper, W. Levin, I. R. Phillips, R. Sato, and M. R. Waterman, DNA 6:1-11, 1987]). Using antibodies directed against cytochrome P-450SU1, its N-terminal amino acid sequence, and amino acid composition, we cloned the suaC gene encoding cytochrome P-450SU1. Similar information about the cytochrome P-450SU2 protein confirmed that a gene cloned by cross-hybridization to the suaC gene was the subC gene encoding cytochrome P-450SU2. The suaC and subC genes were expressed in Escherichia coli, DNA for both genes was sequenced, and the deduced amino acid sequences were compared with that of the well-characterized cytochrome P-450CAM from Pseudomonas putida. Both cytochromes P-450SU1 and P-450SU2 contain several regions of strong similarity with the amino acid sequence of P-450CAM, primarily in regions of the protein responsible for attachment and coordination of the heme prosthetic group.

Project description:The epitope-specific cytochrome P-450 content of animal livers was analysed by radioimmunoassay using a panel of seven monoclonal antibodies (MAbs) made to a 3-methylcholanthrene-induced rat liver cytochrome P-450. Competitive radioimmunoassays utilizing a reference radiolabelled MAb and a series of unlabelled MAbs indicated that there are at least three distinct classes of MAbs to different epitopes on cytochrome P-450. In addition, a direct radioimmunoassay employing a radiolabelled second antibody detected MAb-specific cytochromes P-450 in livers from different animals. This radioimmunoassay detected large elevations in the levels of these cytochromes P-450 in the livers of 3-methylcholanthrene-treated rats and C57BL/6 mice compared with untreated rats, 3-methylcholanthrene-treated DBA/2 mice or guinea pigs. The two complementary radioimmunoassay methods are sensitive, efficient, and easily applicable for screening large number of tissue samples for MAb-defined cytochrome P-450 phenotype.

Project description:Cytochrome P-450 was purified to apparent homogeneity from the brain microsomes of phenobarbital-treated rats. The specific content of the purified P-450 was 12.7 nmol/mg of protein. NADPH-cytochrome P-450 reductase (reductase) was also purified to apparent homogeneity from brain microsomes. The specific content was 34.7 mumol of cytochrome c reduced/min per mg of protein. The reduced carbon monoxide spectrum of purified P-450 exhibited a peak at 450 nm. Both the P-450 and the reductase moved as single bands on SDS/PAGE. The molecular masses of the purified P-450 and the reductase were determined to be 53.3 and 72.0 kDa respectively. The purified brain P-450 cross-reacted with antibodies to rat liver P-450IIB1/IIB2 when examined by Western immunoblotting, but no immunological similarity was observed with rat liver P-450IA1/IA2 or P-450IIE1. Purified rat brain reductase cross-reacted with antibodies to rat liver reductase. Further, immunoblot experiments with untreated rat and human brain microsomes using antisera to the purified rat brain P-450 and reductase indicated that these forms of P-450 and NADPH-cytochrome P-450 reductase exist constitutively in rat and human brain. Purified rat brain P-450 was reconstituted with purified NADPH-cytochrome P-450 reductase, deoxycholate and dilauroyl glyceryl 3-phosphocholine. NADPH-dependent N-demethylation of aminopyrine and morphine was observed in the reconstituted system. The catalytic-centre activities were 80.25 and 38.2 nmol of formaldehyde formed/min per nmol of P-450 respectively. The reconstituted system had a comparatively lower catalytic-centre activity for 7-ethoxycoumarin O-de-ethylase (10.5 nmol of product formed/min per nmol of P-450).

Project description:Benzalkonium chlorides (BACs) are widely used as disinfectants in cleaning products, medical products, and the food processing industry. Despite a wide range of reported toxicities, limited studies have been conducted on the metabolism of these compounds in animal models and none in human-derived cells or tissues. In this work, we report on the metabolism of BACs in human liver microsomes (HLM) and by recombinant human hepatic cytochrome P450 (CYP) enzymes. BAC metabolism in HLM was NADPH-dependent and displayed apparent half-lives that increased with BAC alkyl chain length (C10 < C12 < C14 < C16), suggesting enhanced metabolic stability of the more lipophilic, longer chain BACs. Metabolites of d7-benzyl labeled BAC substrates retained all deuteriums and there was no evidence of N-dealkylation. Tandem mass spectrometry fragmentation of BAC metabolites confirmed that oxidation occurs on the alkyl chain region. Major metabolites of C10-BAC were identified as ω-hydroxy-, (ω-1)-hydroxy-, (ω, ω-1)-diol-, (ω-1)-ketone-, and ω-carboxylic acid-C10-BAC by liquid chromatography-mass spectrometry comparison with synthetic standards. In a screen of hepatic CYP isoforms, recombinant CYP2D6, CYP4F2, and CYP4F12 consumed substantial quantities of BAC substrates and produced the major microsomal metabolites. The use of potent pan-CYP4 inhibitor HET0016, the specific CYP2D6 inhibitor quinidine, or both confirmed major contributions of CYP4- and CYP2D6-mediated metabolism in the microsomal disappearance of BACs. Kinetic characterization of C10-BAC metabolite formation in HLM demonstrated robust Michaelis-Menten kinetic parameters for ω-hydroxylation (Vmax = 380 pmol/min/mg, Km = 0.69 μM) and (ω-1)-hydroxylation (Vmax = 126 pmol/min/mg, Km = 0.13 μM) reactions. This work illustrates important roles for CYP4-mediated ω-hydroxylation and CYP2D6/CYP4-mediated (ω-1)-hydroxylation during the hepatic elimination of BACs, an environmental contaminant of emerging concern. Furthermore, we demonstrate that CYP-mediated oxidation of C10-BAC mitigates the potent inhibition of cholesterol biosynthesis exhibited by this short-chain BAC.

Project description:Vitamin A (retinol) is an essential precursor for the production of retinoic acid (RA), which in turn is a major regulator of gene expression, affecting cell differentiation throughout the body. Understanding how vitamin A nutritional status, as well as therapeutic retinoid treatment, regulates the expression of retinoid homeostatic genes is important for improvement of dietary recommendations and therapeutic strategies using retinoids. This study investigated genes central to processes of retinoid uptake and storage, release to plasma, and oxidation in the liver of rats under steady-state conditions after different exposures to dietary vitamin A (deficient, marginal, adequate, and supplemented) and acutely after administration of a therapeutic dose of all-trans-RA. Over a very wide range of dietary vitamin A, lecithin:retinol acyltransferase (LRAT) as well as multiple cytochrome P-450s (CYP26A1, CYP26B1, and CYP2C22) differed by diet and were highly correlated with one another and with vitamin A status assessed by liver retinol concentration (all correlations, P < 0.05). After acute treatment with RA, the same genes were rapidly and concomitantly induced, preceding retinoic acid receptor (RAR)?, a classical direct target of RA. CYP26A1 mRNA exhibited the greatest dynamic range (change of log 2(6) in 3 h). Moreover, CYP26A1 increased more rapidly in the liver of RA-primed rats than naive rats, evidenced by increased CYP26A1 gene expression and increased conversion of [(3)H]RA to polar metabolites. By in situ hybridization, CYP26A1 mRNA was strongly regulated within hepatocytes, closely resembling retinol-binding protein (RBP)4 in location. Overall, whether RA is produced endogenously from retinol or administered exogenously, changes in retinoid homeostatic gene expression simultaneously favor both retinol esterification and RA oxidation, with CYP26A1 exhibiting the greatest dynamic change.

Project description:Antibodies to four rat liver forms of cytochrome P-450, two phenobarbital-inducible (PB1 and PB2) and two 3-methylcholanthrene-inducible (MC1 and MC2) proteins, have been used to make a structural and functional comparison of rat and human cytochromes P-450. Proteins from both species were identified on Western blots by their reaction with these antibodies. In the human liver preparations, structurally related proteins to PB1 and to PB2 were identified in all the samples tested with apparent Mr values of 51 800 and 54 800 for PB1 and 53 600 and 57 200 for PB2. Considerable variation in the content of the lower-Mr proteins was measured between samples and, as with the rat enzymes, samples which reacted well with anti-PB1 also reacted with anti-PB2, indicating that these proteins are regulated at least to some degree, co-ordinately. The apparent Mr values of the major human proteins identified with anti-MC1 and anti-MC2 were 54 400 and 57 000 respectively. Only six (of 31) human samples contained significant amounts of these proteins. The same six samples which reacted with anti-MC1 also reacted with anti-MC2, again indicating co-ordinate regulation of these two proteins. Antibody inhibition of microsomal 7-ethoxycoumarin and 7-ethoxyresorufin metabolism demonstrated a degree of conservation of substrate specificity related to specific P-450 isoenzymes between the species. However, the contributions of the different P-450 isoenzymes to the human microsomal activity were not always related to the rat enzyme with the highest activity towards these substrates.

Project description:Three forms of cytochrome P-450 were purified to homogeneity from liver microsomes of Wistar-strain rats treated with phenobarbital. They had minimum mol.wts. of 52 000, 53 000 and 54 000 as determined by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis and are designated as P-450(L), P-450(M) and P-450(H) respectively. They were shown to be immunoidentical by Ouchterlony double-diffusion analysis. Several criteria, such as isoelectric points, substrate specificities and sensitivities to tryptic digestion, however, indicated that these cytochromes are distinct isoenzymes of cytochrome P-450. Whereas P-450(L) was highly active on various substrates, P-450(H) had generally low catalytic activities, except on aminopyrine. The cytochromes purified by immunoaffinity chromatography using anti-P-450(L) showed a marked variation in their distribution depending on the strain and colony of rat. Limited tryptic digestion of P-450(H) gave one tryptic peptide showing the same mobility as P-450(L) by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis and their primary structures were very similar. The result suggests a possibility that such limited proteolysis is involved in the post-translational modification of the cytochrome or its destruction.

Project description:Exposure of cultured chick-embryo hepatocytes to increasing concentrations of CoCl2 in the presence of allylisopropylacetamide results in formation of cobalt protoporphyrin, with a reciprocal decrease in haem and cytochrome P-450. Treatment of rats with CoCl2 (84 mumol/kg) and 5-aminolaevulinate (0.2 mmol/kg) also results in formation of cobalt protoporphyrin and a decrease in cytochrome P-450 in the liver. Hepatic microsomal fractions from rats treated with phenobarbital, CoCl2 and 5-aminolaevulinate were analysed by polyacrylamide gel electrophoresis. Cobalt protoporphyrin was associated mainly with proteins of 50000-53000 mol.wt. The results suggest that the formation of cobalt protoporphyrin occurred at the expense of the synthesis of haem, leading to a decrease in cytochrome P-450. Furthermore, the cobalt protoporphyrin that was formed may itself have been incorporated into apocytochrome P-450.

Project description:microRNA (miRNA) mediated regulation of gene expression has emerged as a significant mechanism contributing to variation in gene expression. In this study, we evaluated the potential role of miRNAs in regulating expression of hepatic cytochromes P450 and their transcriptional regulatory genes. We screened the Targetscan database for high scoring miRNA binding site predictions in selected hepatic DMEs and transcription factors. Expression profiling for candidate miRNAs (n=22) and their target genes (n=20) was performed in 50 human liver samples (25 female, 25 male). Significant negative correlations were observed between expression levels of several CYPs/hepatic transcription factors and the hepatic miRNAs studied. Interestingly, hepatic miR-34a demonstrated significant negative correlation with expression levels of multiple hepatic transcription factors (including NR1I2 and HNF4?) and DMEs (CYP3A4, CYP2C19). miR-34a expression was also significantly higher in males than in females in congruence with previous observations of higher CYP3A4 expression in females versus males. A mediation analysis revealed that miR-34a was involved in significant mediation of the association observed between CYP2C19 and several hepatic transcription factors (HNF4?, NR1I2). miR-34a may thus play a key regulatory role and be a key contributory factor to the inter-individual variability observed in expression of key drug metabolizing genes in humans.