UNIPROT:Q7LGC8 - FACTA Search

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Query: UNIPROT:Q7LGC8 (HSD)
3,196 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Many genes involved in gonadal development have been proposed for mammals. To elucidate if those genes play any critical role in sexual differentiation of the avian gonad, we have examined expressions of the genes for proposed sex-determining factors (SF1, Sox9, DMRT1, Wpkci, and AMH), steroidogenic enzymes (P-450scc, 3beta-HSD, P-450c17, 17beta-HSD and aromatase) and the estrogen receptor in the urogenital system during chicken embryogenesis (days 4-16 of incubation), using a semi-quantitative reverse transcription-polymerase chain reaction. Transcripts of the genes for sex-determining factors except Wpkci and AMH were detected in both sexes but had no sexual dimorphism. Wpkci expression was female specific and constantly high throughout incubation. AMH was expressed in both sexes from the earliest stages but was higher in males than in females after the onset of gonadal differentiation. Expressions of the genes for more downstream enzymes in a steroidogenic pathway, such as P-450c17, 17beta-HSD and aromatase, were clearly higher in females than in males. In particular, 17beta-HSD expression increased in the course of gonadal development in females, whereas it was constantly low in males. Aromatase was highly expressed in females during gonadal differentiation but not in males over the period. In addition, to elucidate the relationship between gene activation during embryogenesis and reproductive abnormalities in wild birds, we examined expressions of these genes in embryos treated with various doses of diethylstilbestrol (DES), as a representative estrogenic compound. DES had no effect on the expressions of all the genes in either sex during the periods of gonadal differentiation (days 8, 12, and 16). Sexual dimorphism of the gene expression for steroidogenic enzymes appeared to be closely related to gonadal development in the chicken embryo, especially in the female. However, all the genes examined here seem unlikely to respond to xenoestrogens.
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PMID:Gene expression of sex-determining factors and steroidogenic enzymes in the chicken embryo: influence of xenoestrogens. 1530 64

In salmonid fishes, estradiol-17beta (E2) and 17alpha,20beta-dihydroxy-4-pregnen-3-one (17,20beta-P) are the major steroid hormones controlling oocyte growth (vitellogenesis) and final maturation (resumption of meiosis). The aim of this study was to determine changes in mRNAs encoding ovarian steroidogenic enzymes and steroidogenic acute regulatory protein (StAR) during ovarian development in female rainbow trout. We analyzed the levels of mRNAs encoding the enzymes P450 side-chain cleavage enzyme (P450scc), 3beta-hydroxysteroid dehydrogenase (3beta-HSD), 17alpha-hydroxylase/C17-C20 lyase (P450c17), aromatase (P450arom), and carbonyl reductase-like 20beta-hydroxysteroid dehydrogenase (20beta-HSD), and StAR in developing ovarian follicles of rainbow trout by Northern blot, in relation to the pattern of serum E2 and 17,20beta-P levels. Serum E2 levels were elevated during vitellogenesis and decreased prior to an ovulatory increase in 17,20beta-P. Transcripts for P450scc and P450c17 increased in late vitellogenic follicles, then decreased in post-ovulatory follicles. In contrast, P450arom transcripts were abundant during vitellogenesis and then declined as vitellogenesis was completed and were barely detectable in post-ovulatory follicles. 3beta-HSD mRNA levels increased in late vitellogenic follicles and were maintained at high levels in post-ovulatory follicles. 20beta-HSD and StAR mRNA levels were very low during vitellogenesis, and then strongly increased during late vitellogenesis to a peak in post-ovulatory follicles. These results indicate that the expression of genes encoding steroidogenic enzymes and StAR change dynamically, dependent on the developmental stages of rainbow trout follicles. The acquisition of the ability of later stage follicles to rapidly produce large quantities of 17,20beta-P appears to be supported by a preparatory increase in mRNAs encoding StAR and other steroidogenic enzymes.
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PMID:Changes in steroidogenic enzyme and steroidogenic acute regulatory protein messenger RNAs in ovarian follicles during ovarian development of rainbow trout (Oncorhynchus mykiss). 1610 55

Menopause state doesn't mean total ovarian failure. Function of stromal cells is maintained and steroids, especially androgens, are produced. The role of androgenesis after menopause is important because of general androgens activity and their influence on some symptoms characteristic for perimenopausal period. From the other side, these hormones are necessary for the proper quality of life connected with bone mass density, libido, mood and physical activity. Knowledge of postmenopausal ovarian androgenesis and its influence on total androgens level is still not completed. On the basis of result of immunohistochemical assays it was found, that T and A postmenopausal production is depended on: hyperplasia of stromal tissue, receptors of Gn-FSH and Gn-LH, steroids receptors: ER, PR and AR, enzymes: P-140 aromatase, 3-beta HSD, 17-beta HSD activity. But influence the estrogen replacement therapy on these factors is still unknown.
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PMID:[Ovarian androgenesis in women after menopause]. 1619 37

We repeatedly established a nontransformed steroidogenically active human ovarian cell culture derived from oophorectomy specimens. The cells maintained steroidogenic activity for 3-5 passages (6-8 weeks) and responded to stimulation by insulin and gonadotropin. With pregnenolone as substrate, LH stimulated progesterone production up to 124% and FSH up to 121%. Insulin alone stimulated progesterone production up to 135%, in the presence of LH up to 191%, and in the presence of FSH up to 170%. With dehydroisoandrosterone (DHA) as substrate, insulin alone stimulated testosterone production up to 117%, and in the presence of LH (but not FSH) up to 125%. With androstenedione as substrate, insulin alone stimulated estradiol production up to 133%, FSH alone up to 188%, and LH with insulin up to 217%. With progesterone as substrate and in the presence of LH (but not FSH), 17-alpha-hydroxylase activity was stimulated up to 131%. With DHA as substrate and in the presence of LH, 3-beta-hydroxysteroid dehydrogenase (3-beta-HSD) activity was stimulated up to 139%. With androstenedione as substrate, insulin alone stimulated aromatase activity up to 202%, LH up to 208%, and FSH up to 251%. Under the same conditions, in the presence of LH and insulin, aromatase activity was stimulated up to 342%, and in the presence of FSH and insulin, up to 318%. With testosterone as substrate, insulin alone stimulated aromatase activity up to 122%. With testosterone as substrate, in the presence of LH and insulin, aromatase activity was stimulated up to 136%, and in the presence of FSH and insulin, up to 156%. Immunocytochemistry studies directly confirmed presence of aromatase and 3-beta-HSD in these cultured cells. We conclude that a steroidogenically active nontransformed long-term human ovarian cell culture can be repeatedly established from oophorectomy specimens, providing uninterrupted supply of cultured human ovarian cells for a variety of studies of ovarian physiology.
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PMID:Hormonally active nontransformed human ovarian cell culture from oophorectomy specimens: methods of development and initial characterization. 1626 Aug 96

We investigated the effects of theca cells or FSH on granulosa cell differentiation and steroid production during bovine early follicular growth, using a co-culture system in which granulosa and theca cells were cultured on opposite sides of a collagen membrane. Follicular cells were isolated from early antral follicles (2-4 mm) that were assumed to be in gonadotropin-independent phase and just before recruitment into a follicular wave. Granulosa cells were cultured under serum-free conditions with and without theca cells or recombinant human FSH to test their effects on granulosa cell differentiation. Messenger RNA levels for P450 aromatase (aromatase), P450 cholesterol side chain cleavage (P450scc), 3beta-hydroxysteroid dehydrogenase (3beta-HSD), LH receptor (LHr), and steroidogenic acute regulatory protein (StAR) in granulosa cells were measured by real-time quantitative RT-PCR analysis. FSH enhanced aromatase mRNA expression in granulosa cells, but did not alter estradiol production. FSH also enhanced mRNA expression for P450scc, LHr, and StAR in granulosa cells, resulting in an increase in progesterone production. In contrast, theca cells enhanced aromatase mRNA expression in granulosa cells resulting in an increase in estradiol production. Theca cells did not alter progesterone production and mRNA expression in granulosa cells for P450scc, 3beta-HSD, LHr, and StAR. The results of the present study indicate that theca cells are involved in both rate-limiting steps in estrogen production, i.e., androgen substrate production and aromatase regulation, and that theca cell-derived factors regulate estradiol and progesterone production in a way that reflects steroidogenesis during the follicular phase of the estrous cycle.
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PMID:Effects of ovarian theca cells on granulosa cell differentiation during gonadotropin-independent follicular growth in cattle. 1654 62

The objective of this study was to investigate the levels of expression of steroid biosynthetic enzymes and steroidogenic acute regulatory protein (StAR) at different stages of ovarian follicular development in zebrafish (Danio rerio), and to investigate the sites within the steroid biosynthetic pathway that may be regulated by gonadotropins. Ovarian follicles of sexually mature fish were separated into primary, previtellogenic, vitellogenic, and mature stages and the expression of StAR, P450 side chain cleavage (P450scc), 3beta-hydroxysteroid dehydrogenase (3beta-HSD), P450 hydroxylase/lyase (P450c17), 17beta-hydroxysteroid dehydrogenase type 1 (17beta-HSD1), 17beta-hydroxysteroid dehydrogenase type 3 (17beta-HSD3), and P450 aromatase (P450aromA) was determined by Real time RT-PCR. The expression of all genes changed significantly as follicles grew, with a decrease in the expression of StAR, P450scc, 3beta-HSD and P450c17 with maturation, and an increase in the expression of 17beta-HSD3 during vitellogenesis and 17beta-HSD1 and P450aromA during previtellogenesis. In vitro incubation of vitellogenic follicles demonstrated that the expression of StAR, 17beta-HSD3, and P450aromA increased in response to hCG, and decreased in the absence of hCG. In contrast, the expression of P450scc, 3beta-HSD, P450c17, and 17beta-HSD1 remained constant between treatments and over time. Testosterone and estradiol production in the culture medium was stimulated by human chorionic gonadotropin (hCG). These experiments aid in the characterization of the roles and regulation of steroids throughout ovarian development, and suggest that gonadotropins play a key role in the regulation of StAR, 17beta-HSD3, and P450aromA in zebrafish.
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PMID:Characterization of the mRNA expression of StAR and steroidogenic enzymes in zebrafish ovarian follicles. 1670 73

The exquisitely balanced hormonal mechanisms that control female fertility can be affected by several internal and external factors including pathogens, genetic maladies, and environmental agents. In the latter group are natural and synthetic agents known as endocrine disruptors. One such compound, 2,2-bis-(p-hydroxyphenyl)-1,1,1-trichloroethane (HPTE), is the predominant metabolite of the pesticide methoxychlor. The effects of HPTE on ovarian steroidogenesis have not been previously reported and were investigated in the present study. Granulosa cells harvested from immature rats were treated with follicle-stimulating hormone (FSH) or N(6),2'-O-dibutyryladenosine 3',5'-cyclic monophosphate (db-cAMP) in the presence or absence of HPTE. After 48h, progesterone (P4) and estradiol-17beta (E2) concentrations were measured in the culture media. Steady-state levels of the mRNAs encoding steroidogenic acute regulatory protein (StAR), P450 side-chain cleavage (P450scc), 3beta-hydroxysteroid dehydrogenase type 1 (3beta-HSD), and P450 aromatase (P450arom) were examined using real-time PCR. Both FSH- and db-cAMP-stimulated P(4) accumulation were impaired by HPTE. In contrast, FSH-, but not db-cAMP-stimulated, E2 content was suppressed by HPTE. The FSH-dependent increase in the abundance of P450scc, 3beta-HSD, and P450arom mRNAs was blocked by HPTE; however, StAR expression was not altered. Although db-cAMP-dependent P450arom was moderately reduced by HPTE, the levels of db-cAMP-dependent StAR, P450scc, and 3beta-HSD mRNAs were increased in the presence of HPTE. These data collectively show that HPTE can disrupt P4 and E2 production in granulosa cells, with implications for sites of action both preceding and following the generation of cAMP. The steroid-modulatory effects of HPTE in granulosa cells appear to involve the general suppression of the FSH-dependent expression of mRNAs encoding steroid pathway proteins, whereas the disparate effects of HPTE on cAMP-dependent mRNA content in this regard suggest a broader and more complex mechanism of action.
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PMID:The methoxychlor metabolite, 2,2-bis-(p-hydroxyphenyl)-1,1,1-trichloroethane, inhibits steroidogenesis in rat ovarian granulosa cells in vitro. 1673 95

Intratumoral metabolism and synthesis of estrogens as a result of the interactions of various enzymes are considered to play very important roles in the pathogenesis and development of hormone dependent breast carcinoma. Among these enzymes, intratumoral aromatase plays as important role converting serum androgens to estrogens in situ, and serves as a source of estrogen, especially in postmenopausal patients with breast carcinoma. However, other enzymes such as the 17beta-hydroxysteroid dehydrogenase (17beta-HSD) isozymes, estrogen sulfatase (STS) and estrogen sulfotransferase, also play pivotal roles in intratumoral estrogen production. The 17beta-hydroxysteroid dehydrogenase (17beta-HSD) isozymes catalyze the interconversion of estradiol (E2) and estrone (E1), and thereby serve to modulate the tissue levels of bioactive E2 in human breast carcinoma. 17Beta-HSD type 1 catalyzes primarily the reduction of estrone (E1) to estradiol (E2), whereas 17beta-HSD type 2 catalyzes primarily the oxidation of E2 to E1. In human breast disease, 17beta-HSD type 1 is expressed in proliferative disease without atypia, atypical ductal hyperplasia, ductal carcinoma in situ and invasive ductal carcinoma. 17Beta-HSD type 2 has not been detected in any of these breast lesions. In addition, 17beta-HSD type 1 coexpression is significantly correlated with estrogen receptor status in invasive ductal carcinoma cases. These results indicate that breast carcinoma can effectively convert E1, produced as a result of in situ aromatization, to E2, a biologically potent estrogen, which exerts estrogenic actions on tumor cells through estrogen receptor, especially the alpha subtype in carcinoma cells. Therefore, inhibiting intratumoral 17beta-HSD type 1 is also considered to contribute to inhibition of cell proliferation by decreasing intratumoral estradiol. Estrogen sulfotransferase (EST; SULT 1E1 or STE gene) sulfonates estrogens to inactive estrogen sulfates, while steroid sulfatase (STS) hydrolyzes estrone sulfate (E1-S) to estrone. EST immunoreactivity was recently demonstrated to be significantly associated with a decreased risk of recurrence or improved prognosis by both uni- and multivariate analyses. STS immunoreactivity was significantly associated with an increased risk of recurrence by univariate analysis. These findings also suggest that EST and STS plays important roles in regulation of in situ estrogen production, and EST especially is a potent prognostic factor in human breast carcinoma. Therefore, the inhibition of intratumoral STS might also serve as an endocrine therapy in postmenopausal patients. It is also important to note that the status of intratumoral aromatase, 17beta-HSD type 1, EST and STS in human breast cancer tissues is variable and not necessarily correlated with each other, which suggests different potential sources of intratumoral estrogens among individual patients with breast cancer. These findings indicate that there are patients who could benefit more from inhibition of these intratumoral enzymes rather than aromatase inhibition as an endocrine therapy. Therefore, it will become very important to examine the intratumoral levels of 17beta-HSD type 1 and STS in the resected specimens of human breast carcinoma as potential targets of novel endocrine therapy in the near future.
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PMID:New development in intracrinology of breast carcinoma. 1675 6

Sex steroids influence the development and function of the songbird brain. Developmentally, the neural circuitry underlying song undergoes masculine differentiation under the influence of estradiol. In adults, estradiol stimulates song behavior and the seasonal growth of song control circuits. There is good reason to believe that these neuroactive estrogens are synthesized in the brain. At all ages, estrogens could act at the lateral ventricle, during migration, or where song nuclei exist or will form. We investigated the activity of two critical steroidogenic enzymes, 3beta-hydroxysteroid dehydrogenase/isomerase (3beta-HSD) and aromatase, using a slice culture system. Sagittal brain slices were collected from juvenile (posthatch day 20) and adult zebra finches containing either the lateral ventricle, where neurons are born, or the telencephalic song nuclei HVC and RA. The slices were incubated with (3)H-dehydroepiandrosterone or (3)H-androstenedione. Activity was determined by isolating certain products of 3beta-HSD (5alpha-androstanedione, 5beta-androstanedione, estrone, and estradiol) and aromatase (estrone and estradiol). Activities of both 3beta-HSD and aromatase were detected in all slices and were confirmed using specific enzyme inhibitors. We found no significant difference in activity between adult males and females in either region for either enzyme. Juvenile female slices containing the lateral ventricle, however, showed greater levels of 3beta-HSD activity than did similar slices from age-matched males. Determination of the activity of these critical steroidogenic enzymes in slice culture has implications for the role of neurosteroids in brain development.
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PMID:Activities of 3beta-HSD and aromatase in slices of developing and adult zebra finch brain. 1691 26

Prostate cancer is a major health issue in westernized countries, being considered a prototypical age-related, androgen-dependent tumor. However, data on the association between circulating androgens and prostate cancer have been inconsistent and mostly not compatible with the androgen hypothesis. In addition, plasma androgen-to-estrogen ratio appears to decrease with age, suggesting that estrogens may also have a role. Results from our own and others' studies suggest that circulating steroids cannot be considered representative of their actual intraprostatic levels. This is a consequence of the expression and/or activity of steroid enzymes, including 17beta-hydroxysteroid dehydrogenase (17beta-HSD), 5alpha-reductase, 3alpha/3beta-HSD, and aromatase, which may eventually lead to a differential tissue accumulation of steroid derivatives having distinct biological activities. Interestingly, many of the genes encoding for steroid enzymes are highly polymorphic in nature, although only a few studies have investigated their relation with prostate cancer and the data presently available are inconclusive. Locally produced or metabolically transformed estrogens may differently affect proliferative activity of prostate cancer cells. In our studies, estrogen may either stimulate or decrease prostate cancer cell growth, also depending on the receptor status. In particular, an imbalance of ERalpha and ERbeta expression may be critical to determine the ultimate estrogen effects on prostate cancer cell growth. Furthermore, evidence is accumulating that estrogens regulate gene transcription through an array of estrogen-response elements (EREs) and non-EREs, either ligand-dependent or -independent. This is further complicated by the presence of receptor isoforms, distinct cofactor interaction, and potential heterodimerization. Based on this combined evidence, a hypothetical model of prostate cancer progression is presented.
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PMID:Estrogens and mechanisms of prostate cancer progression. 1726 68

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