UNIPROT:P06889 - FACTA Search

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Ketoconazole, an imidazole antimycotic drug, inhibits steroid biosynthesis in adrenal and testicular tissue by blocking cytochrome P-450 dependent enzymes. To study the effect of ketoconazole on steroid biosynthesis in the human ovary we incubated human ovarian tissue (mainly theca cells) or granulosa cells with radiolabeled precursors and increasing concentrations of ketoconazole. After incubation, steroids were extracted and separated by thin layer chromatography (TLC). Activity of C17,20-desmolase and aromatase was estimated by measuring the amount of their radioactive products with liquid scintillation counting. After incubation of ovarian tissue with [3H]17-hydroxyprogesterone the production of [3H]androstenedione was reduced by increasing concentrations of ketoconazole (0-200 microM) to a minimum of 31% of basal production. This indicates a strong inhibition of ovarian C17,20-desmolase by ketoconazole with a 50% inhibiting concentration (IC50) of 23 microM. After incubation of human granulosa cells with ketoconazole (0-2000 microM) and [3H]androstenedione the production of [3H]estrone and [3H]estradiol was suppressed to minimally 37 and 35% of basal values, indicating a significant inhibition of ovarian aromatase. IC50-values were 105 microM ketoconazole for estradiol and 130 microM for estrone. In conclusion, ketoconazole was shown to inhibit human ovarian C17,20-desmolase and aromatase in vitro. As in human adrenals and testes ovarian C17,20-desmolase seems to be most sensitive to the inhibitory effect of ketoconazole.
J Steroid Biochem Mol Biol 1991 Feb
PMID:Effect of ketoconazole on human ovarian C17,20-desmolase and aromatase. 200 42

A number of different progestogens, levonorgestrel (LNG), norethisterone (NET), gestodene (GSD), desogestrel (DG) and norgestimate (NORG) are used in combination with the oestrogen ethinyloestradiol (EE2) in oral contraceptive steroid preparations. All the progestogens are acetylenic steroids and previous studies have indicated the potential of acetylenic steroids to cause mechanism-based or "suicide" inactivation of cytochrome P-450. We have compared the effects of the different progestogens on EE2 2-hydroxylation (a reaction catalyzed by enzymes from the P-450IIC, P-450IIIA and P-450IIE gene families) and also the oxidative metabolism of other drug substrates (cyclosporin, diazepam, tolbutamide) by human liver microsomes. On coincubation with EE2 as substrate, GSD, 3-keto desogestrel (3-KD, the active metabolite of desogestrel) and LNG produced some concentration-dependent inhibition of EE2 2-hydroxylation (maximum 32% inhibition at 100 microM 3-keto desogestrel). Ki values determined for GSD and 3-KD were 98.5 +/- 12.3 and 93.2 +/- 10.3 microM (mean +/- SD; n = 4), respectively. Preincubation of progestogens in a small volume (50 microliters) incubation for 30 min in the presence of an NADPH-generating system enhanced the inhibitory potential of all the steroids (at 100 microM, inhibition was for GSD 39%, 3-KD 46%, LNG 46%, NET 51% and NORG 43%). Inhibitory effects were therefore comparable and also similar to the macrolide antibiotic troleandomycin. The most marked inhibition seen was of diazepam N-demethylation and hydroxylation by GSD (71 and 57%, respectively) and 3-KD (62 and 50%, respectively). In preincubation studies involving cyclosporin as the substrate, the order of inhibitory potency was GSD greater than 3-KD greater than NET greater than LNG for production of both metabolite M17 and M21. The results of the study indicate that all the progestogens in common use have the propensity to inhibit a number of oxidative pathways but there is little evidence for one progestogen being more markedly inhibitory than others.
J Steroid Biochem Mol Biol 1991 Feb
PMID:Effect of the progestogens, gestodene, 3-keto desogestrel, levonorgestrel, norethisterone and norgestimate on the oxidation of ethinyloestradiol and other substrates by human liver microsomes. 200 43

Post mitochondrial supernatants (S-12 extracts) were prepared from Phycomyces blakesleeanus by grinding washed and frozen mycelial cakes in fine sand and extracting the paste produced with buffer containing Tris-HCl pH 7.8 (0.1 M), EDTA (0.01 M), dithiothreitol (5 mM) and glycerol (10% v/v). The S-12 extracts, obtained in this way, reproducibly hydroxylated progesterone, producing 7 alpha- and 15 beta-hydroxyprogesterone the major products of whole-cell transformation. Cell-free progesterone hydroxylation was found to be approximately linearly dependent on extract concentration, to require reduced NADP (partly replaceable by NADH), and to be dependent on progesterone (apparent Km calculated to be 4 mM). K+ and Mg2+ were found not to be required. Maximum progesterone hydroxylation occurred after 2 h at pH 7.8 and at 24 degrees C. Using optimum conditions S-12 extracts were capable of hydroxylating between 5 and 15% of added progesterone (0.2 mM). Hydroxylation was found to be partially inhibited by carbon monoxide (ca 40%) and almost completely inhibited by azoles, ketoconazole and diconazole. The NADPH and molecular oxygen requirements were replaceable by NaIO4. These findings strongly suggest that hydroxylation was being catalyzed by cytochrome P-450. This was confirmed by preparing progesterone-hydroxylating microsomes and Triton N-101-solubilized microsome extracts, and by obtaining a dithionite-reduced carbon monoxide-difference absorption spectrum peak at 455 nm in the solubilized microsome extracts.
J Steroid Biochem Mol Biol 1991 Feb
PMID:Microbial transformation of steroids--VII. Hydroxylation of progesterone by extracts of Phycomyces blakesleeanus. 200 46

3-Chlorodibenzofuran was the only markedly mutagenic isomer among the four monochlorodibenzofurans. Although it was mutagenic even in the absence of 9,000g supernatant fraction (S9) of rat liver, it was further activated by the addition of S9. Metabolic activation of this compound in mutagenicity was studied using liver S9s and cell fractions which were prepared from rats treated with two inducers. 1,1-Dichloro-2,2-bis(p-chlorophenyl) ethylene (DDE) was used as an inducer of phenobarbital inducible cytochrome P-450, and beta-naphthoflavone (beta NF) was used as an inducer of 3-methylcholanthrene inducible cytochrome P-448. S9, microsomal, mitochondrial, and cytosolic fractions were obtained from four groups of rats, i.e., untreated, DDE treated, beta NF treated, and DDE and beta NF treated groups. Mutagenicity was tested using Salmonella typhimurium tester strain TA98, because this strain is more sensitive to 3-chlorodibenzofuran than strain TA100. This experiment showed that 3-chlorodibenzofuran was activated most highly by beta NF-induced microsomes. However, it was also activated by the cytosolic fraction. Moreover, it was highly activated in rat livers which were not treated with inducers. The activity of aryl hydrocarbon hydroxylase (AHH) of each fraction was measured. AHH did not always become an index of the metabolic activation of 3-chlorodibenzofuran. This study showed that 3-chlorodibenzofuran is activated not only by cytochrome P-448, which is induced by 3-methylcholanthrene type inducers, but also by the enzymes existing in normal rat liver. This result suggests a risk of manifestation of its toxicity to normal animals.
Environ Mol Mutagen 1991
PMID:Mutagenicity of 3-chlorodibenzofuran and its metabolic activation. 200 65

The expression of 19-hydroxylase activity in the Y1 adrenal cell line is reported here for the first time. Two new metabolites from the incubation of deoxycorticosterone (DOC) with these cells, 19-hydroxy-20 alpha-dihydroDOC and 19-hydroxy-20 alpha-dihydrocorticosterone, have been identified. The most important of the two is the 11 beta,19-dihydroxylated metabolite, which is produced in smaller amounts than 18-hydroxy-20 alpha-dihydrocorticosterone. A third 19-hydroxylated metabolite was identified as 19-hydroxy-20 alpha-dihydroprogesterone, produced from the cholesterol in the serum supplemented medium. These results show that the cytochrome P-450(11)beta of this cell line expresses 19-hydroxylase activity in addition to 11 beta- and 18-hydroxylase activities, as do those of other species.
J Steroid Biochem Mol Biol 1991 Apr
PMID:19-Hydroxylated steroids, new metabolites produced by the Y1 adrenal cell line. 203 61

The ability to detoxify the phytoalexin, pisatin, an antimicrobial compound produced by pea (Pisum sativum L.), is one requirement for pathogenicity of the fungus Nectria haematococca on this plant. Detoxification is mediated by a cytochrome P-450, pisatin demethylase, encoded by any one of six Pda genes, which differ with respect to the inducibility and level of pisatin demethylase activity they confer, and which are associated with different levels of virulence on pea. A previously cloned Pda gene (PdaT9) was used in this study to characterize further the known genes and to identify additional members of the Pda family in this fungus by Southern analysis. DNA from all isolates which demethylate pisatin (Pda+ isolates) hybridized to PdaT9, while only one Pda- isolate possessed DNA homologous to the probe. Hybridization intensity and, in some cases, restriction fragment size, were correlated with enzyme inducibility. XhoI/BamHI restricted DNA from reference strains with a single active Pda allele had only one fragment with homology to PdaT9; no homology attributable to alleles associated with the Pda- phenotype was found. Homology to this probe was also limited to one or two restriction fragments in most of the 31 field isolates examined. Some unusual progeny from laboratory crosses that failed to inherit demethylase activity also lost the single restriction fragment homologous to PdaT9. At the chromosome level, N. haematococca is highly variable, each isolate having a unique electrophoretic karyotype. In most instances, PdaT9 hybridized to one or two chromosomes containing 1.6-2 million bases of DNA, while many Pda- isolates lacked chromosomes in this size class. The results from this study of the Pda family support the hypothesis that deletion of large amounts of genomic DNA is one mechanism that reduces the frequency of Pda genes in N. haematococca, while simultaneously increasing its karyotypic variation.
Mol Gen Genet 1991 Apr
PMID:Identification and chromosomal locations of a family of cytochrome P-450 genes for pisatin detoxification in the fungus Nectria haematococca. 203 15

Genomic clones of a rat testosterone 6 beta-hydroxylase have been isolated and characterized as the first gene (P450/6 beta A) among P450IIIA subfamily. This gene spans about 25Kb and consists of 13 exons, which is the largest number of exons among cytochrome P-450 genes reported previously. The nucleotide sequence of the exon region showed high similarity to those of P450PCN2 and P450PCN1 cDNA (Gonzalez, F.J. et al. (1987) Mol. Cell. Biol. 2969-2974), but several replacements and deletions of nucleotide were found between the P450/6 beta A gene and both cDNAs, indicating the existence of multiple P450IIIA genes in rats.
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PMID:A gene structure of testosterone 6 beta-hydroxylase (P450IIIA). 204 44

The effects of a subclinical fascioliasis at various stages of its development (at week 3, 6 and 9 after infection by oral administration of 20 metacercariae of Fasciola hepatica) in rats were determined on the activity of enzymes involved in liver metabolism of glutathione and on the subunit pattern of cytosolic glutathione S-transferase. The parasitic pathology was ascertained by clinical observation of the rats and at autopsy. Hepatic microsomal cytochrome P-450 content was significantly decreased in infected rats by week 3 and 6 post-infection. Not correlatively, the catalytic activities of glutathione S-transferase towards 1-chloro-2,4-dinitrobenzene and 1,2-dichloro-4-nitrobenzene were significantly lowered in last stages of the experimental fascioliasis (by week 6 and 9 post-infection). These decreases were correlated to that of subunit 1 as determined by means of high-performance liquid chromatography of cytosolic proteins whereas subunit 6 could also be decreased. Fascioliasis did not alter cytosolic glutathione, glutathione reductase and glutathione peroxidase activities or plasma glutathione S-transferase activity accepting 1-chloro-2,4-dinitrobenzene as the substrate.
Mol Biochem Parasitol 1991 Feb
PMID:Differential inhibition of rat hepatic glutathione S-transferase isoenzymes in the course of fascioliasis. 205 25

Metabolism of sulfonylurea herbicides by Streptomyces griseolus ATCC 11796 is carried out via two cytochromes P-450, P-450SU1 and P-450SU2. Mutants of S. griseolus, selected by their reduced ability to metabolize a fluorescent sulfonylurea, do not synthesize cytochrome P-450SU1 when grown in the presence of sulfonylureas. Genetic evidence indicated that this phenotype was the result of a deletion of greater than 15 kb of DNA, including the structural genes for cytochrome P-450SU1 and an associated ferredoxin Fd-1 (suaC and suaB, respectively). In the absence of this monooxygenase system, the mutants described here respond to the presence of sulfonylureas or phenobarbital in the growth medium with the expression of only the subC,B gene products (cytochrome P-450SU2 and Fd-2), previously observed only as minor components in wild-type cells treated with sulfonylurea. These strains have enabled an analysis of sulfonylurea metabolism mediated by cytochrome P-450SU2 in the absence of P-450SU1, yielding an in vivo delineation of the roles of the two different cytochrome P-450 systems in herbicide metabolism by S. griseolus.
Mol Gen Genet 1991 Jun
PMID:Isolation and characterization of Streptomyces griseolus deletion mutants affected in cytochrome P-450-mediated herbicide metabolism. 206 4

For identification of microsomal cytochrome P-450 (P-450) enzymes which catalyze 2- or 4-hydroxylations of estrogens in the rat liver, estradiol (E2) and estradiol 17-sulfate (E2-17-S) were selected as the substrates and incubated with various kinds of purified P-450 enzymes: PB-1, PB-2, PB-4 and PB-5 obtained from phenobarbital-treated male rats (Sprague-Dawley); MC-1 and MC-5 from 3-methylcholanthrene-treated male rats; and UT-1, UT-2, UT-4 and UT-5 from untreated animals. The reactions were carried out under the P-450-reconstructed system, and the resulting products were determined by HPLC using electrochemical detection. All the enzymes tested were shown to have varying degrees of catalytic activities for 2-hydroxylation of the two substrates; UT-1 and UT-2 had the highest activity. Of the induced P-450 enzymes, PB-2 and MC-1 showed fairly high catalytic activity for 4-hydroxylation of E2. The P-450 enzymes obtained from the untreated male rats, especially UT-4, showed the highest catalytic activity for 4-hydroxylation of the two substrates. From these results and also from kinetic experiments, the P-450 enzymes which catalyze 2- and 4-hydroxylations of estrogen were considered to be different species. A part of E2 was converted to such metabolites as estrone and those having a hydroxyl group at positions 6 beta, 15 alpha or 16 alpha, each production of which was estimated to be catalyzed by single or multiple P-450s.
J Steroid Biochem Mol Biol 1991 Jun
PMID:Comparison of cytochrome P-450 species which catalyze the hydroxylations of the aromatic ring of estradiol and estradiol 17-sulfate. 206 89

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