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Query: UMLS:C0338671 (Steroids)
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The present study examined the effects of naloxone (N) and naltrexone-methobromide (NMB; an opioid receptor antagonist that does not cross the blood-brain barrier) on testicular steroidogenesis during acute immobilization stress (IMO; 2 h) in adult rats. Unstressed rats as well as IMO rats were treated by unilateral intratesticular injection of N (20 micrograms/testis), NMB (36 micrograms/testis), or vehicle at the beginning of and at 1 h of the IMO period. In IMO rats serum T levels were significantly reduced, while serum luteinizing hormone levels were not affected. N and NMB normalized serum T levels in IMO rats and had no effects in controls. In IMO rats the activities of 3 beta-hydroxysteroid dehydrogenase (HSD) and P450(17 alpha, lyase) were significantly reduced, while the activity of 17 beta-HSD was not affected. N and NMB antagonized the inhibitory effect of IMO on 3 beta-HSD and P450(17 alpha, lyase) but did not alter enzyme activity in freely moving rats. Acute IMO decreased basal and human chorionic gonadotropin-stimulated androgen production by hemitestis preparation, but N (10(-4) M) added directly to the incubation medium blocked the decrease and had no effect on testes from freely moving control rats. These results support the conclusion that endogenous opioid peptides are potentially important paracrine regulators of testicular steroidogenesis under stress conditions.
Steroids 1997 Nov
PMID:The effect of opioid antagonists in local regulation of testicular response to acute stress in adult rats. 936 9

Presently, several works question the effects of dehydroepiandrosterone (DHEA) reported in vivo and designate its 7-hydroxylated metabolites as native antiglucocorticoids and potent mediators in the triggering of immune response. Among mouse tissues and organs, and second to liver, the largest production of 7alpha-and 7beta-hydroxylated derivatives of DHEA takes place in brain microsomes. To contribute to identification of cytochromes P450 (CYPs) responsible for 7alpha- and 7beta-hydroxy-DHEA production, effects of CYP inhibitors and of several steroid hormones on DHEA 7-hydroxylation were examined. Using mouse brain microsomes as a source of enzyme, we report now that strong and smaller inhibitions of DHEA 7alpha-hydroxylation were obtained with ketoconazole and alpha-naphthoflavone, respectively, and that neither changed DHEA 7beta-hydroxylation. Metyrapone and antipyrine also inhibited 7alpha-hydroxylation, but by contrast, significantly increased 7beta-hydroxylation of DHEA. This indicated that at least, two different CYPs were responsible for 7alpha- and 7beta-hydroxylation of DHEA. Steroids sharing a 3beta-hydroxylated structure with DHEA, namely pregnenolone, 5-androstene-3beta,17beta-diol and 3beta-hydroxy-5alpha-androstan-17-one, were strong inhibitors of DHEA 7alpha-hydroxylation (non-competitive inhibition with pregnenolone, Ki=2.0 +/- 0.3 microM). In contrast, 7beta-hydroxylation yields were not decreased by the 3beta-hydroxysteroids tested. Moderate inhibition of 7alpha- and 7beta-hydroxylation was obtained with 3-oxosteroids, namely testosterone, progesterone, corticosterone and 4-androsten-3,17-dione. Taken together, these data indicate specific inhibition patterns of DHEA 7alpha- and 7beta-hydroxylation by CYP inhibitors and steroid hormones in mouse brain microsomes and may be used as criteria necessary for identification of the responsible CYP species.
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PMID:Dehydroepiandrosterone 7alpha- and 7beta-hydroxylation in mouse brain microsomes. Effects of cytochrome P450 inhibitors and structure-specific inhibition by steroid hormones. 946 17

Hydroxylations of pregnenolone (PREG) at the 7 alpha-and 7 beta-positions have been reported in numerous murine tissues and organs, including liver, and the responsible cytochrome P450 (P450) species await identification. Using thin-layer chromatography and gas chromatography-mass spectrometry and crystallization to constant specific activity, we report identification of 7 alpha-hydroxy-PREG and 7 beta-hydroxy-PREG metabolites produced in mouse liver microsomes and kinetic studies of their production with apparent KM values of 2.45 +/- 0.124 microM and 3.41 +/- 0.236 microM for 7 alpha- and 7 beta-hydroxylation, respectively. Investigation of P450 inhibitors and of steroid hormone effects on both 7 alpha- and 7 beta-hydroxylation of PREG showed that 1) different P450 were involved because metyrapone and antipyrine inhibited solely 7 alpha-and 7 beta-hydroxylation, respectively; 2) P450 1A2, 2D6, 2B1, and 2B11 were not responsible for 7 alpha and 7 beta-hydroxylation of PREG because respective specific inhibitors furafylline, quinidine, and chloramphenicol triggered no inhibition; 3) P450 1A1 was responsible for only part of the 7 beta-hydroxylation of PREG because alpha-naphthoflavone, which inhibits specifically P450 1A1, did not suppress entirely 7 beta-hydroxylation while ketoconazole, antipyrine, and metyrapone extensively decreased the 7 beta-hydroxylation; 4) comparison of these findings with those obtained with brain microsomes suggests that tissue-specific P450 species are responsible for the 7 alpha-and 7 beta-hydroxylation of PREG; and 5) 7 alpha-hydroxylation of PREG may be shared with other 3 beta-hydroxysteroids such as isoandrosterone, 5-androstene-3 beta, 17 beta-diol, and dehydroepiandrosterone, which acted in a competitive manner. Taken together, these findings will be of use for identification of the P450 species responsible for 7 alpha- and 7 beta-hydroxylation of PREG and for studies of their activities in liver and other organs.
Steroids
PMID:Hydroxylation of pregnenolone at the 7 alpha- and 7 beta- positions by mouse liver microsomes. Effects of cytochrome p450 inhibitors and structure-specific inhibition by steroid hormones. 965 44

Xenobiotics have played a role in elucidating the regulation of gene expression of hepatic cytochrome P450 in the eukaryotes. The major regulation of P450 genes in the eukaryotes is at the transcriptional and post transcriptional level. Polycyclic aromatic hydrocarbons regulate the gene expression by binding the cytosolic aryl hydrocarbon receptor and its translocation to the nucleus where it forms a ternary complex with aryl hydrocarbon nuclear translocator. The ternary complex PAH-AHR-ARNT acts as a transcription factor and binds aromatic hydrocarbon responsive element to increase the expression of CYP1A1 gene. Phenobarbitone and ethanol regulate the expression of respective P450s within CYP2 gene family by different mechanisms but without the involvement of a cytosolic receptor. PB uses phosphorylation as a switch to increase the affinity of the transcription factor(s) for the positive rather than negative PB regulatory element within CYP2B1/2. This is one of the novel ways that nature has designed for a protein to act as a negative as well as a positive acting transcription factor. Ethanol regulates the expression of CYP2E1 by posttranslational stabilization making it resistant to the proteolytic digestion. Steroids regulate expression of CYP3A genes through a receptor mediated mechanism. The binary complex of the steroid and its receptor increases the transcription of CYP3 genes by binding glucocorticoid responsive element which is already occupied by another protein. Peroxisome proliferators also follow a receptor mediated mechanism in which a binary complex of PP activated receptor and retinoid X receptor acts a transcription factor and increases the expression of CYP4A genes by binding peroxisome proliferator responsive element. These studies demonstrate that PAH, glucocorticoids and PP follow a receptor mediated whereas PB and ethanol follow a nonreceptor mediated mechanism for the regulation of respective P450 genes in the eukaryotes.
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PMID:Gene regulation of cytochrome P450--an overview. 971 60

Hydroxylations of dehydroepiandrosterone (DHEA) at the 7 alpha- and 7 beta- positions have been reported in numerous murine tissues and organs, including liver, and the responsible cytochrome P450 (P450) species await identification. Using thin layer chromatography and gas chromatography-mass spectrometry, we report identification of 7 alpha-hydroxy-DHEA and 7 beta-hydroxy-DHEA metabolites produced in mouse liver microsome digests and kinetic studies of their production with apparent KM values of 3.19 +/- 0.292 microM and 2.82 +/- 0.241 microM for 7 alpha- and 7 beta-hydroxylation, respectively. Investigation of P450 inhibitor and of steroid hormone effects on both 7 alpha- and 7 beta-hydroxylation of DHEA showed that, 1) different P450s were involved in 7 alpha- and 7 beta-hydroxylation of DHEA because metyrapone inhibited solely 7 alpha-hydroxylation, 2) P450 2D6, 2B1, and 2B11 were not responsible for 7 alpha- and 7 beta-hydroxylation of DHEA because respective specific inhibitors quinidine and chloramphenicol triggered no inhibition, 3) aside from P450 7b, P450 1A1, and 1A2 may be responsible for a fraction of DHEA 7 alpha- and 7 beta-hydroxylation because alpha-naphthoflavone and furafylline, which inhibit specifically P450 1A1 and 1A2, decreased the 7 alpha- and 7 beta-hydroxylation partly, 4) comparison of these findings with those obtained with brain microsomes suggested that tissue-specific P450 species are responsible for the 7 alpha- and 7 beta-hydroxylation of DHEA, 5) 7 alpha-hydroxylation of DHEA may be shared with other 3 beta-hydroxysteroids, such as 3 beta-hydroxy-5 alpha-androstan-17-one, 5-androstene-3 beta,17 beta-diol and pregnenolone, which acted in a noncompetitive manner. Taken together, these findings will be of use for identification of the P450 species responsible for 7 alpha- and 7 beta-hydroxylation of DHEA and for studies of their activities in liver.
Steroids 1998 Nov
PMID:Inhibition studies of dehydroepiandrosterone 7 alpha- and 7 beta- hydroxylation in mouse liver microsomes. 983 Jun 88

A truncate form of human aromatase cDNA that corresponds to the recently identified rat cortical type aromatase mRNA variant (Yamada-Mouri et al., J. Steroid Biochem. Molec. Biol., 60: 325-329, 1997) has been generated, and the amino-terminus deleted form of the enzyme has been expressed in CHO cells. The resulting product lacking 102 residues from the N-terminus of aromatase (i.e. 102-aromatase) showed an extremely low enzyme activity using an 'In-cell' assay. A strong aromatase activity, however, was observed for the delta102-aromatase using an in vitro method on the solublized preparations. The in vitro activity was dependent on both incubation time and NADPH concentration as well as inclusion of NADPH-cytochrome P450 reductase in the assay mixture. The average turnover rate of aromatization of the reconstituted delta102-aromatase was 6.8 min(-1). The results of the immunosuppression assay suggested that delta102-aromatase still holds the epitope interactive to MAb3-2C2, a monoclonal antibody raised agaist human placental aromatase P450. Furthermore, the IC50 values of MAb3-2C2 were determined to be 24 and 23 microg/ml for the whole homogenate and the 105,000 x g precipitate fractions prepared from the truncated aromatase expressing cells, respectively, whereas an IC50 of 1.3 microg/ml was shown for the full-length human aromatase. These results indicate that the delta102-aromatase P450 can be expressed and is catalytically competent as the full-length enzyme, but the epitope structure for the monoclonal antibody MAb3-2C2 is altered from that of the native enzyme. In addition, the intracellular distribution of delta102-aromatase may be different from that of the wild-type enzyme, explaining why very low activity was measured using an 'In-cell' assay.
Steroids 1999 Jun
PMID:Functional characterization of 102-amino acid-deleted form of human aromatase (delta102-aromatase). 1043 79

The results of our study presented here establishes that gonadotropin-releasing hormone (GnRH) acts directly on the corpus luteum, leading to suppressed production and release of progesterone and thus disrupting pregnancy. A GnRH-agonist (GnRH-Ag) treatment suppressed the luteal and serum progesterone levels. This suppression is neither mediated by a fall in ovarian testosterone production nor its conversion to estradiol. Although the treatment suppressed the nuclear estradiol-receptor content and binding sites for LH in the corpus luteum, it had no effect on the luteal binding sites for GnRH and prolactin within 24 h. GnRH-Ag augmented the plasma levels of luteinizing hormone, decreased the magnitude of nocturnal surges of prolactin, and had no effect on luteal cyclic adenosine 5'-monotriphosphate levels. Yet, the treatment had no effect on the luteal content of free cholesterol. We have also demonstrated, for the first time, the presence of steroidogenic acute regulatory protein and peripheral benzodiazepine receptor in the rat corpus luteum, and the suppression of these proteins by GnRH-Ag leads to reduced steroidogenesis by the corpus luteum. Concomitantly, P450 side-chain cleavage enzyme, its activity, and its mRNA content and 3beta-hydroxy-steroid dehydrogenase content in the corpus luteum decreased. The treatment suppressed the plasma levels of pregnenolone and 20alpha-dihydroprogesterone. These data suggest that the suppression of luteal steroidogenesis by GnRH-Ag may be due to its inhibitory effect on the cholesterol transport and/or on the enzymes involved in the steroidogenic pathway. Furthermore, based on other observations made in our laboratory, we propose a hypothesis that an endogenous GnRH is present in the corpus luteum/ovary during pregnancy in the rat and that this GnRH may play a physiological role in the regulation, maintenance, and/or termination of pregnancy.
Steroids 1999 Sep
PMID:GnRH action on luteal steroidogenesis during pregnancy. 1050 18

We demonstrated previously that testosterone regulates aromatase activity in the anterior/dorsolateral hypothalamus of male rhesus macaques. To determine the level of the androgen effect, we developed a ribonuclease protection assay to study the effects of testosterone or dihydrotestosterone (DHT) on aromatase (P450(AROM)) mRNA in selected brain areas. Adult male rhesus monkeys were treated with testosterone or DHT. Steroids in serum were quantified by RIA. Fourteen brain regions were analyzed for P450(AROM) mRNA. Significant elevations of its message over controls (P<0.05) were found in the medial preoptic area/anterior hypothalamus of both androgen treatment groups and the medial basal hypothalamus of the testosterone-treated males. Other brain areas were not affected by androgen treatment. We conclude that testosterone and DHT regulate P450(AROM) mRNA in brain regions that mediate reproductive behaviors and gonadotropin release. The P450(AROM) mRNA of other brain areas is not androgen dependent. Brain-derived estrogens may also be important for maintaining neural circuitry in brain areas not related to reproduction. The control of P450(AROM) mRNA in these areas may differ from what we report here, but it is equally important to understand the function of in situ estrogen formation in these areas.
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PMID:Region-specific regulation of cytochrome P450 aromatase messenger ribonucleic acid by androgen in brains of male rhesus monkeys. 1081 87

It is known that follicle-stimulating hormone (FSH) and insulin stimulate estradiol secretion from cultured non-luteinizing granulosa cells. The interaction between these hormones is less well understood. Granulosa cells from small (2-4 mm) bovine follicles were cultured in serum-free medium to determine if cytochrome P450 aromatase activity is regulated by FSH in the presence of different concentrations of insulin. Insulin significantly stimulated aromatase activity in the absence of FSH. There was a significant interaction between insulin and FSH on aromatase activity, such that FSH stimulated activity at low (0.5, 1 and 10 ng/ml) doses of insulin, whereas at higher (100 ng/ml) doses of insulin FSH failed to stimulate aromatase activity. To determine if the lack of a response to FSH with higher doses of insulin is related to gene expression, the effect of FSH on P450 aromatase mRNA levels was measured. An 'uncoupling' of mRNA and enzyme activity was observed for cells cultured with 100 ng/ml insulin, as FSH significantly increased P450 aromatase mRNA abundance without affecting estradiol secretion or aromatase activity. We conclude that in the presence of high doses of insulin, FSH decreases aromatase activity, and an uncoupling of P450 aromatase mRNA and aromatase activity occurs. This may have implications for infertility treatments when there is a risk of hyperinsulinemia.
Steroids 2001 Jun
PMID:Insulin alters the effects of follicle stimulating hormone on aromatase in bovine granulosa cells in vitro. 1118 40

Steroids synthesized de novo from cholesterol in the brain are generally called neurosteroids. We have recently demonstrated, using biochemical and molecular biological methods, that certain structures in the quail brain possess cytochrome P450 side-chain cleavage enzyme (P450scc) and 3beta-hydroxysteroid dehydrogenase/Delta(5)-Delta(4)-isomerase (3beta-HSD) and produce pregnenolone, pregnenolone sulfate and progesterone. To clarify the biosynthetic pathway of neurosteroids in the avian brain, therefore, we examined the expression of messenger RNA (mRNA) encoding for the enzyme cytochrome P450 17alpha-hydroxylase/c17,20-lyase (P450(17alpha,lyase)), which converts pregnenolone to dehydroepiandrosterone via 17alpha-hydroxypregnenolone or progesterone to androstenedione via 17alpha-hydroxyprogesterone. RT-PCR analysis followed by Southern hybridization indicated the expression of P450(17alpha,lyase) mRNA in the brain of sexually mature birds without a clear-cut sex difference. Employing biochemical techniques combined with HPLC analysis, the conversion of progesterone to 17alpha-hydroxyprogesterone was also found in brain slices of the mature male. P450(17alpha,lyase) mRNA was detected in various brain regions, but there was a clear regional difference in the expression. The expressions of P450(17alpha,lyase) mRNA in the diencephalon and mesencephalon were significantly higher than those in the cerebrum and cerebellum, unlike 3beta-HSD mRNA, which showed no regional difference in the expression. In situ hybridization revealed the cellular localization of P450(17alpha,lyase) mRNA. The cells expressing P450(17alpha,lyase) mRNA were detected several diencephalic and mesencephalic regions, such as the preoptic area, the anterior hypothalamus, the dorsolateral thalamus, the optic tectum and the ventral midbrain. The expression was also localized in the septum, the hyperstriatum accessorium, and the ventral portions of the archistriatum in the telencephalon. Cerebellar Purkinje cells also expressed P450(17alpha,lyase) mRNA. These results suggest that the avian brain possesses P450(17alpha,lyase) as well as P450scc and 3beta-HSD in both sexes. The expression of P450(17alpha,lyase) in the avian brain may be region-dependent.
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PMID:Expression and localization of cytochrome P450 17 alpha-hydroxylase/c17,20-lyase in the avian brain. 1131 72

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