Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
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Dihydrotestosterone (DHT), a potent androgen, is converted from testosterone by 5alpha-reductase isozymes. There are two 5alpha-reductase isozymes, type 1 and type 2 in humans and animals. These two isozymes have differential biochemical and molecular features. Mutations in type 2 isozyme cause male pseudohermaphroditism, and many mutations have been reported from various ethnic groups. The affected 46XY individuals have high normal to elevated plasma testosterone levels with decreased DHT levels and elevated testosterone/DHT ratios. They have ambiguous external genitalia at birth so that they are believed to be girls and are often raised as such. However, Wolffian differentiation occurs normally and they have epididymides, vas deferens and seminal vesicles. Virilization occurs at puberty frequently with a gender role change. The prostate in adulthood is small and rudimentary, and facial and body hair is absent or decreased. Balding has not been reported. Spermatogenesis is normal if the testes are descended. The clinical, biochemical and molecular genetic analyses of 5alpha-reductase-2 deficiency highlight the significance of DHT in male sexual differentiation and male pathophysiology.
Mol Cell Endocrinol 2002 Dec 30
PMID:Androgens and male physiology the syndrome of 5alpha-reductase-2 deficiency. 1257 14

Androgens have profound effects on scalp and body hair in humans. Scalp hair grows constitutively in the absence of androgens, while body hair growth is dependent on the action of androgens. Androgenetic alopecia, referred to as male pattern hair loss (MPHL) in men and female pattern hair loss (FPHL) in women, is due to the progressive miniaturization of scalp hair. Observations in both eunuchs, who have low levels of testicular androgens, and males with genetic 5alpha-reductase (5alphaR) deficiency, who have low levels of dihydrotestosterone (DHT), implicate DHT as a key androgen in the pathogenesis of MPHL in men. The development of finasteride, a type 2-selective 5alphaR inhibitor, further advanced our understanding of the role of DHT in the pathophysiology of scalp alopecia. Controlled clinical trials with finasteride demonstrated improvements in scalp hair growth in treated men associated with reductions in scalp DHT content, and a trend towards reversal of scalp hair miniaturization was evident by histopathologic evaluation of scalp biopsies. In contrast to its beneficial effects in men, finasteride did not improve hair growth in postmenopausal women with FPHL. Histopathological evaluation of scalp biopsies confirmed that finasteride treatment produced no benefit on scalp hair in these women. These findings suggest that MPHL and FPHL are distinct clinical entities, with disparate pathophysiologies. Studies that elucidate the molecular mechanisms by which androgens regulate hair growth would provide greater understanding of these differences.
Mol Cell Endocrinol 2002 Dec 30
PMID:Androgens and alopecia. 1257 18

Organotins are known to induce imposex (pseudohermaphroditism) in marine neogastropods and are suggested to act as specific endocrine disruptors, inhibiting the enzyme-mediated conversion of steroid hormones. Therefore, we investigated the in vitro effects of triphenyltin (TPT) on human 5alpha-reductase type 2 (5alpha-Re 2), cytochrome P450 aromatase (P450arom), 17beta-hydroxysteroid dehydrogenase type 3 (17beta-HSD 3), 3beta-HSD type 2 and 17beta-HSD type 1 activity. First, the present study demonstrates that significant amounts of TPT occurred in the blood of eight human volunteers (0.17-0.67 microg organotin cation/l, i.e. 0.49-1.92 nmolcation/l). Second, TPT showed variable inhibitory effects on all the enzymes investigated. The mean IC(50) values were 0.95 microM for 5alpha-Re 2 (mean of n=4 experiments), 1.5 microM for P450arom (n=5), 4.0 microM for 3beta-HSD 2 (n=1), 4.2 microM for 17beta-HSD 3 (n=3) and 10.5 microM for 17beta-HSD 1 (n=3). To exclude the possibility that the impacts of TPT are mediated by oxidizing essential thiol residues of the enzymes, the putative compensatory effects of the reducing agent dithioerythritol (DTE) were investigated. Co-incubation with DTE (n=3) resulted in dose-response prevention of the inhibitory effects of 100 microM deleterious TPT concentrations on 17beta-HSD 3 (EC(50) value of 12.9 mM; mean of n=3 experiments), 3beta-HSD 2 (0.90 mM; n=3), P450 arom (0.91 mM; n=3) and 17beta-HSD 1 (0.21 mM; n=3) activity. With these enzymes, the use of 10mM DTE resulted in an at least 80% antagonistic effect, whereas, the effect of TPT on 5alpha-Re 2 was not compensated. In conclusion, the present study shows that TPT acts as an unspecific, but significant inhibitor of human sex steroid hormone metabolism and suggests that the inhibitory effects are mediated by the interaction of TPT with critical cysteine residues of the enzymes.
J Steroid Biochem Mol Biol 2003 Apr
PMID:Dithioerythritol (DTE) prevents inhibitory effects of triphenyltin (TPT) on the key enzymes of the human sex steroid hormone metabolism. 1276 82

The cytochrome P450 (CYP) isoform CYP2C11 is specifically expressed in the liver of adult male rats, and 5alpha-reductase is specifically expressed in the liver of the adult female rats. The sexually dimorphic expressions of these hepatic enzymes are regulated by the sex-dependent profiles of the circulating growth hormone (GH). However, it is not well known whether hormonal imprinting or activation factors in the neonatal brain influence the sexually dimorphic expression patterns of hepatic enzymes. We therefore examined the effect of perinatal exposure to 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) on sex-dependent expressions of hepatic enzymes. Pregnant rats were treated with TCDD at a dose of 0, 200, or 800 ng/kg on gestation day 15, exposing the pups to the chemical. Although the expression of CYP2C11 protein in the livers of male pups on postnatal day (PND) 49 was significantly higher than that of the controls, but the 5alpha-reductase activities in the livers of female pups were not altered by exposure to TCDD. Focusing on perinatal periods, testosterone and estrogen levels significantly increased in the brain of male pups on PND 2. The results suggest that the alteration of testosterone and estrogen levels affect hormonal imprinting in the neonatal brain of male pups, and thus induces a change in the level of male-specific hepatic CYP2C11. We conclude that perinatal exposure to TCDD at low doses may change the sexual differentiation of the neonatal brain in male rats.
J Biochem Mol Toxicol 2003
PMID:Perinatal exposure to low doses of 2,3,7,8-tetrachlorodibenzo-p-dioxin alters sex-dependent expression of hepatic CYP2C11. 1459 50

Estrogens and androgens are steroids that act as reproductive hormones in vertebrates. These compounds have also been detected in reef-building corals and other invertebrates, where they are hypothesized to act as bioregulatory molecules. Experiments were conducted using labeled steroid substrates to evaluate metabolism of estrogens and androgens by coral homogenates. GC-MS analysis of 13C-labeled steroids showed that Montipora capitata coral homogenates or fragments could convert estradiol to estrone and testosterone to androstenedione and androstanedione, evidence that M. capitata contains 17beta-hydroxysteroid dehydrogenase and 5alpha-reductase. When homogenates from three coral species and symbiotic dinoflagellates (zooxanthellae) were incubated with tritiated steroid substrates, metabolites separated by thin-layer chromatography confirmed that 17beta-hydroxysteroid dehydrogenase activity occurred in all species tested. NADP+ was the preferred cofactor in dehydrogenation reactions with coral homogenates. Reduction of estrone and androstenedione occurred at lower rates and aromatization of androgens was not observed. It is unclear whether estrogens detected previously in coral tissues are produced endogenously or sequestered in coral tissue from dietary or environmental sources. Previous studies have demonstrated that corals can take up estrogens from the water column overlying coral reefs. Considered in total, these observations suggest corals could alter the concentration or form of steroids available to reef organisms.
Comp Biochem Physiol B Biochem Mol Biol 2003 Nov
PMID:Metabolism of estrogens and androgens by scleractinian corals. 1460 55

Testicular androgens induce formation of the male urogenital tract in all mammals. In marsupials male development occurs after birth and over a prolonged period. For example, in the tammar wallaby virilization of the Wolffian ducts begins by day 20, prostate formation begins about day 25, and phallic development starts after day 80 of pouch life. Between days 20 and 40 5alpha-androstane-3alpha,17beta-diol (5alpha-adiol) is formed in tammar testes and secreted into plasma. Administration of 5alpha-adiol to pouch young females induces urogenital sinus virilization by day 40 and formation of a mature male prostate and phallus by day 150. 5alpha-Adiol is synthesized in pouch young testes by two pathways, one involving testosterone and dihydrotestosterone and the other 5alpha-pregnane-3alpha,17alpha-diol-20-one and androsterone as intermediates, both utilizing steroid 5alpha-reductase. In target tissues 5alpha-adiol acts via the androgen receptor after conversion to dihydrotestosterone but may have other actions as well. Whether 5alpha-adiol plays a role in male development in placental mammals is uncertain.
Mol Cell Endocrinol 2003 Dec 15
PMID:Unsolved problems in male physiology: studies in a marsupial. 1465 73

Skin, the largest organ of the human body, synthesizes active sex steroids from adrenal C19 precursor steroids. Normal human breast epidermal keratinocytes in primary culture were used to evaluate the enzymatic activities responsible for the formation and degradation of active androgens and estrogens during keratinocyte differentiation. Enzymatic activities, including 3beta-hydroxysteroid dehydrogenase/Delta5-Delta4 isomerase (3beta-HSD), 17beta-hydroxysteroid dehydrogenase (17beta-HSD), 5alpha-reductase and 3alpha-hydroxysteroid dehydrogenase (3alpha-HSD) were measured using [3H] steroids as substrates. After 10-60 days in culture, no 3beta-HSD activity was detected, but all other activities were measured, demonstrating the ability of keratinocytes to convert androstenedione (4-DIONE) into the potent androgen dihydrotestosterone (DHT). Furthermore, marked changes in enzymatic activity were observed during cell differentiation: 17beta-HSD was first detected during the third week of culture, the level of activity reaching a peak during the fourth week. This peak was followed by a progressive decrease during keratinization. On the other hand, 5alpha-reductase and 3alpha-HSD activities were first detected during the fourth week of culture. The enzymatic activities involved in the formation and degradation of sex steroids were also characterized in the immortalized human keratinocyte cell line HaCaT. It was then found that HaCaT cells possess a pattern of steroid metabolizing enzymes similar to that of human epidermal keratinocytes in culture. Since glucocorticoids are known to exert potent pharmacological effects on the skin, the effect of dexamethasone (DEX) on cell proliferation and enzymatic activities was determined using HaCaT cells. DEX causes a 55% decrease in HaCaT cell proliferation (IC50: 10nM) whereas DEX caused a three- to five-fold stimulation of oxidative 17beta-HSD activity in intact cells in culture (ED50: 30 nM) and this stimulatory effect was competitively blocked by the glucocorticoid antagonist RU486. A four-fold increase in type 2 17beta-HSD mRNA levels was also observed as measured by real-time PCR, correlating with the increase in oxidative activity. No effect of DEX on the other enzymatic activities (3beta-HSD, 5alpha-reductase, and 3alpha-HSD) was observed. Since increased levels of inflammatory cytokines have been detected in some skin diseases then these cytokines might play a role in the differentiation of keratinocytes. In this regard, we found that interleukin-4 (IL-4) induced the expression of 3beta-HSD in HaCaT cells, thus allowing the cells to produce a different set of sex steroids from adrenal C19 precursors. The present data thus indicate that HaCaT cells are a useful model to further study the regulation of the enzymes involved in the metabolism of sex steroids in keratinocytes.
J Steroid Biochem Mol Biol 2003 Nov
PMID:Characterization and modulation of sex steroid metabolizing activity in normal human keratinocytes in primary culture and HaCaT cells. 1467 37

Steroid 5alpha-reductase (5alpha-R) is well known as the enzyme converting progesterone and other steroid hormones to their 5alpha-reduced metabolites and has been reported to be localized in both neuronal and glial cells in the brain. Previously, the enzyme activity in glial cells has been shown to be enhanced either by coculturing with neuronal cells or by adding the conditioned medium of neuronal cells, suggesting a possible implication of neuro-glial interactions in the regulation of neurosteroid metabolism in the brain. In the present studies, the effects of adrenergic agonists on 5alpha-R mRNA and protein levels in rat C6 glioma cells were examined as one of the model experiments for investigating the influence of neuronal activity on the expression of 5alpha-R gene in the glial cell. The direct challenge of beta-adrenergic agonists to glioma cells resulted in the rapid and transient elevation of 5alpha-R mRNA levels through the activation of the cyclic AMP (cAMP)/protein kinase A-mediated signaling pathway. Further studies showed that cAMP-induced 5alpha-R mRNA expression was completely abolished by pretreatment of cells with actinomycin D and also indicated that the elevation of 5alpha-R mRNA levels was accompanied by an increase in enzyme protein in the cells. These findings provide strong evidence that the stimulation of beta-adrenergic receptors might induce the transcriptional activation of 5alpha-R gene expression in glial cells, proposing the possibility that neuronal activity might be involved in the production of neuroactive 5alpha-reduced steroids in the brain.
J Mol Neurosci 2004
PMID:Adrenergic activation of steroid 5alpha-reductase gene expression in rat C6 glioma cells: involvement of cyclic amp/protein kinase A-mediated signaling pathway. 1499 14

Gonads of premetamorphosing larval (PML), transforming (TL) and newly metamorphosed (juvenile) sea lampreys (JL) (Petromyzon marinus) were incubated in vitro with tritiated pregnenolone ([(3)H]P(5)), progesterone ([(3)H]P(4)), and androstenedione ([(3)H]A(4)) to identify the major products of steroidogenesis in early developmental stages. Reverse-phase high-performance liquid chromatography, using two mobile phase gradients, was used to separate the radioactive steroid metabolites. 7alpha-Hydroxylase activity was evident, based on the loss of radioactivity from [(3)H]P(5) labelled at position 7, appearing as tritiated water, and on the appearance of radiolabelled 7alpha-hydroxypregnenolone in the incubation medium. In addition, there was evidence of the synthesis of 15alpha-hydroxylated steroids from the three steroid precursors used. For the progestogen precursors, one of the major 15alpha -hydroxylated metabolites synthesized by both testis and ovarian tissue co-eluted with authentic 15alpha-hydroxyprogesterone, and for [(3)H]A(4), the product was predominantly [(3)H]15alpha-hydroxyandrostenedione. Additional polar steroids were produced, some of which co-eluted with authentic 15alpha-hydroxytestosterone and 15alpha-hydroxyestradiol, whereas others could not be correlated with the authentic 15alpha- or 15beta-hydroxylated steroids available. Ovarian tissues from PML and TL developmental stages synthesized several very non-polar compounds, some of which were present as unconjugated compounds, and others only in the conjugated fraction. These molecules had retention times consistent with pregnanes, and their presence in the incubation medium was therefore indicative of the presence of 5alpha-reductase. These metabolites were not present in the incubation medium from testis, or the JL ovary, suggesting that there is no expression of 5alpha-reductase activity in these tissues. Traces of 17beta-estradiol were found in the incubation medium from ovarian tissue incubated with P(5), but not following incubation with P(4) or A(4). Testosterone was not present in the incubation medium from either ovarian or testis fragments incubated with any of the substrates used.
Comp Biochem Physiol B Biochem Mol Biol 2004 Jun
PMID:Evidence for 15alpha- and 7alpha-hydroxylase activity in gonadal tissue of the early-life stages of sea lampreys, Petromyzon marinus. 1519 66

5alpha-Androstane-3alpha,17beta-diol (androstanediol) is the predominant androgen in immature mouse testes, and studies were designed to investigate its pathway of synthesis, the steroid 5alpha-reductase isoenzyme involved in its formation, and whether testicular androstanediol is formed in embryonic mouse testes at the time of male phenotypic development. In 24-26-day-old immature testes, androstanediol is formed by two pathways; the predominant one involves testosterone --> dihydrotestosterone --> androstanediol, and a second utilizes the pathway progesterone --> 5alpha-dihydroprogesterone --> 5alpha-pregnane-3alpha-ol-20-one --> 5alpha-pregnane-3alpha,17alpha-diol-20-one --> androsterone --> androstanediol. Formation of androstanediol was normal in testes from mice deficient in steroid 5alpha-reductase 2 but absent in testes from mice deficient in steroid 5alpha-reductase 1, indicating that isoenzyme 2 is not expressed in day 24-26 testes. The fact that androstenedione and testosterone were the only androgens identified after incubation of day 16 and 17 embryonic testes with [3H]progesterone implies that androstanediol formation in the testis plays no role in male phenotypic differentiation in the mouse.
Mol Cell Endocrinol 2004 Jul 30
PMID:Steroid 5alpha-reductase 1 promotes 5alpha-androstane-3alpha,17beta-diol synthesis in immature mouse testes by two pathways. 1524 31


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