Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:Q7LGC8 (HSD)
 3,196 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Activation of the protein kinase A (PKA) signaling system is necessary for FSH-induced granulosa cell differentiation, but it is not known whether activation of PKA is sufficient to account for the complex pattern of gene expression that occurs during this process. We addressed this question by infecting granulosa cells with a lentiviral vector that directs the expression of a constitutively active mutant of PKA (PKA-CQR) and compared the cellular responses to PKA-CQR with cells stimulated by FSH. Expression of PKA-CQR in undifferentiated granulosa cells resulted in the induction of both estrogen and progesterone production in the absence of cAMP. The stimulatory effects of both PKA-CQR and FSH on estrogen and progesterone production were suppressed by the PKA inhibitor H-89 and were mimicked by PKA-selective cAMP agonists. mRNA levels for P450scc and 3beta-HSD were induced to a similar extent by FSH and PKA-CQR, whereas mRNA levels for P450arom and the LHr were induced to a greater extent by FSH. Microarray analysis of gene expression profiles revealed that the majority of genes appeared to be comparably regulated by FSH and PKA-CQR but that some genes appear to be induced to a greater extent by FSH than by PKA-CQR. These results indicate that the PKA signaling pathway is sufficient to account for the induction of most genes (as identified by microarray analysis), including those of the progesterone biosynthetic pathway during granulosa cell differentiation. However, optimal induction of aromatase, the LHr, and other genes by FSH appears to require activation of additional signaling pathways.
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PMID:Constitutively active protein kinase A qualitatively mimics the effects of follicle-stimulating hormone on granulosa cell differentiation. 1853 49

2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD) is the most toxic and widely investigated dioxin congener. In utero and lactational exposure to TCDD results in developmental and reproductive defects that are the most sensitive endpoints for TCDD toxicity. TCDD has a potential to interfere with steroid metabolism, but the mechanisms by which this occurs are not well understood. In this study, we investigated the effects of TCDD on prenatal rat steroidogenesis. Pregnant Sprague-Dawley female rats were treated once with TCDD (0, 0.3 or 1 microg/kg) by gavage on embryonic day (ED) 11 and the expression levels of androgen (AR) and estrogen receptors (ER), steroidogenic enzymes (P450scc and 3beta-HSD) and four regulatory factors (StAR, SF-1, GATA-4 and Insl-3) involved in foetal Leydig cell and adrenal function were analysed on ED 19.5. Hormonal status of male foetuses was determined by measuring testicular testosterone (T) levels, plasma luteinizing hormone (LH) and corticosterone concentrations. In utero exposure to TCDD reduced intratesticular T of foetal males (significant at 0.3 microg/kg TCDD) and tended to reduce the protein expression of ERalpha and AR of foetal male rat testis. Foetal male rat plasma LH levels were significantly reduced at the dose of 1 microg/kg TCDD, while corticosterone levels tended to be increased possibly because of the TCDD-induced stress. Only minor alterations in steroidogenesis were observed in rat adrenal. mRNA expression of developmental regulatory factors was not influenced by foetal TCDD exposure, except for significantly reduced adrenal SF-1. The results demonstrate that maternal exposure to TCDD suppressed testicular steroidogenesis of 19.5-day-old foetal male Sprague-Dawley rat. The highest dose of TCDD (1 microg/kg) had also an effect on pituitary LH secretion. Our data implicate that TCDD has direct testicular and pituitary effects on foetal male rat but with different dose-responses. These changes can lead to impaired steroidogenesis and it may result in the maldevelopment of the testis and weaken masculinization.
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PMID:The effects of 2,3,7,8-tetrachlorodibenzo-p-dioxin on foetal male rat steroidogenesis. 1863 54

The bovine placenta produces large amounts of steroids, mainly estrone (E1) and progesterone (P4). Specific features of bovine placental steroidogenesis are 1) the expression of all enzymes needed for the production of estrogens from cholesterol in the trophoblast 2) an only marginal and temporal contribution to peripheral maternal P4 levels restricted to a period between approx. days 150 - 240 of gestation 3) the predominance of sulfoconjugated over free E1 and 4) a complementary setting of steroidogenic enzymes in the two morphologically discriminable trophoblast cell types, the uninucleated trophoblast cells (UTC) and the trophoblast giant cells (TGC). In cattle so far no definite information is available on the specific biological roles of placental estrogens and P4. However, the detection of estrogen receptors and progesterone receptors in the placentomes suggests a role primarily as local regulators of caruncular growth, differentiation and functions. Inconsistent with a function as a caruncular growth factor is the strong evidence that in cattle placental estrogens enter the maternal compartment almost completely as estrone sulfate (E1S), which is not active at classical nuclear receptors. On the other hand, E1S may be converted locally to free active estrogens via the action of steroid sulfatase (StS), which has been detected in specific parts of the bovine caruncular epithelium. Alternatively or in addition, StS expression in the caruncular epithelium may serve the utilization of sulfated neutral steroid precursors (e.g. pregnenolone sulfate or cholesterol sulfate) supplied with maternal blood, thus providing free substrates for further metabolization in the adjacent trophoblast. The down-regulation of P450scc and P450c17 and the up-regulation of 3beta-HSD and aromatase during the differentiation of TGC from UTC in parallel with the up-regulation of ER beta and estrogen sulfotransferase in maturing TGC suggests a function of placental estrogens primarily as autoor intracrine regulators during this process and assigns to conjugated placental estrogens a role as inactivated by-products of TGC differentiation intended for excretion. Collectively, despite some evidence from recent studies for putative roles of placental steroids in cattle their exact functions in the bovine species remain still undefined.
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PMID:Placental steroids in cattle: hormones, placental growth factors or by-products of trophoblast giant cell differentiation? 1870 36

Mentha spicata Labiatae, commonly known as spearmint, can be used for various kinds of illnesses in herbal medicines and food industries. One of the prominent functions of this plant extract is its anti-androgenic activity. The present study investigated the probable correlation between oxidative stress in hypothalamic region and anti-androgenic action of this plant's aqueous extract on rats. Decreased activities of enzymes like superoxide dismutase, catalase, glutathione peroxidase and glutathione reductase in hypothalamus of treated rats indicated spearmint induced oxidative stress. Further RT-PCR and immunoblot analysis demonstrated the decreased expression of some of the steroidogenic enzymes, cytochrome P450scc, cytochrome P450C17, 3beta-Hydroxysteroid dehydrogenase (3beta-HSD), 17beta-Hydroxysteroid dehydrogenase (17beta-HSD) and other related proteins like, steroidogenic acute regulatory protein, androgen receptor and scavenger receptor class B-1. Further, in vitro enzyme assays demonstrated depressed activities of testicular 3beta-HSD and 17beta-HSD enzymes. Histopathology indicated a decreased sperm density in cauda epididymis and degeneration of ductus deference. Our study suggested that spearmint probably induced oxidative stress in hypothalamus resulting in decreased synthesis of LH and FSH which in turn down-regulated the production of testicular testosterone through the disruption of a number of intermediate cascades.
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PMID:Spearmint induced hypothalamic oxidative stress and testicular anti-androgenicity in male rats - altered levels of gene expression, enzymes and hormones. 1880 13

Triclosan (TCS), a chlorophenol, is widely used as a preservative in different types of commercial preparations. The reports on TCS-mediated endocrine disruption are controversial and the present study aimed to elucidate the probable mode of action of TCS as an antiandrogenic compound using a robust study design. Male albino rats, Rattus norvegicus, were treated with three doses of triclosan for a period of 60 days followed by the analysis of various biochemical parameters. RT-PCR analysis demonstrated a significant decrease in mRNA levels for testicular steroidogenic acute regulatory (StAR) protein, cytochrome P450(SCC), cytochrome P450(C17), 3beta-hydroxysteroid dehydrogenase (3beta-HSD), 17beta-hydroxysteroid dehydrogenase (17beta-HSD) and androgen receptor (AR) in TCS treated rats (p<0.05). TCS also induced a perturbed translation of testicular StAR, and AR proteins as shown by Western blot analysis in treated groups of rats. A reduced level of StAR was further indicated by immunohistochemistry in testicular Leydig cells. Further, there was a significant decrease (p<0.05) in the level of serum lutenizing hormone (LH), follicle stimulating hormone (FSH), cholesterol, pregnenolone, and testosterone. In vitro assays demonstrated more than 30% decrease in testicular 3beta-HSD and 17beta-HSD enzyme activities in treated group of animals. Extensive histopathological malformations were observed in the testis and sex accessory tissues of the treated rats. Overall this study showed that TCS decreased the synthesis of androgens followed by reduced sperm production in treated male rats which could be mediated by a decreased synthesis of LH and FSH thus involving hypothalamo-pituitary-gonadal axis.
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PMID:Alteration of testicular steroidogenesis and histopathology of reproductive system in male rats treated with triclosan. 1911 20

A caprine luteal cell line (tsCLC-D) that synthesizes progesterone (P4) was established following by transformation with a temperature-sensitive A209 (tsA209) mutant of simian virus 40 (SV40). The transformed cells have temperature-sensitive for morphology, cell propagation and progesterone steroidogenesis. At the permissive temperature of 34 degrees C, these cells were spindle-shaped and grew with a similar rapidity as tumor cells. However, at the nonpermissive temperature of 40 degrees C, the cells have exhibited a round shape and ceased to proliferate because the gene for maintenance of transformation was not expressed. The tsCLC-D cell line responds to 8-Br-cyclic AMP, 22-hydroxycholesterol and pregnenolone treatment with an increase in progesterone biosynthesis. This cell line still express StAR protein, 3beta-HSD and P450scc enzyme of three kinds of steroidogenic protein and enzymes, this characteristic is similar to normal luteal cell. However, the addition of any doses oLH did not increase progesterone secretion. We speculate that tsCLC-D might lose the responsiveness to gonadotropins during the immortalization process, while retaining steroidogenic enzyme activity and progesterone production. To our knowledge, this is the first report of a stable cell line derived from corpus luteum of ruminant. The tsCLC-D retains steroidogenic capacity, which will make this cell line useful for the studies of regulation of steroidogenesis.
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PMID:Characterization of a stable steroidogenic caprine luteal cell line transformed by a temperature-sensitive simian virus 40. 1928 Aug 81

Numerous recent reports have demonstrated effects of estrogenic chemicals on reproductive physiology of fish. However, there is little information available on the regulation of ovarian steroidogenesis by physiological levels of endogenous steroids in teleosts. Therefore, we analyzed the levels of mRNAs encoding steroidogenic proteins in ovaries of E2-treated rainbow trout Oncorhynchus mykiss). Previtellogenic (perinucleolar oocyte stage) trout received either blank or E2 implants (0.1 microg, 1 microg or 10 microg/g BW) for 7 days in order to achieve low, medium and high physiological levels of E2 in plasma. Plasma E2 levels were measured using radioimmunoassay. Levels of mRNAs encoding steroidogenic acute regulatory protein (StAR), P450 side-chain cleavage enzyme (P450scc), 3beta-hydroxysteroid dehydrogenase (3beta-HSD) and P450 aromatase A (P450aromA) in the ovary were analyzed by real-time quantitative PCR. E2 levels in control animals were approximately 0.5 ng/ml. Levels in treated fish were approximately 1 ng/ml (0.1 microg implant), 2.6 ng/ml (1 microg implant) and 90 ng/ml (10 microg implant), within or just above the physiological range of immature and maturing female rainbow trout. StAR mRNA levels were significantly reduced by all E2 treatments. P450scc mRNA levels were not affected, but 3beta-HSD and P450arom mRNA levels were significantly decreased by the 1 and 10 microg E2/BW implants. These results indicate that E2, either directly or indirectly, downregulates expression of StAR and major steroidogenic enzyme genes in rainbow trout ovary. Furthermore, expression of the trout StAR gene seems particularly sensitive to E2.
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PMID:Differential suppressive effects of low physiological doses of estradiol-17beta in vivo on levels of mRNAs encoding steroidogenic acute regulatory protein and three steroidogenic enzymes in previtellogenic ovarian follicles of rainbow trout. 1942 27

Exposure to antiandrogens during the critical developmental window (i.e. sexual differentiation) can permanently demasculinize the male phenotype. Here we have investigated the effects of developmental exposure to di-isononylphthalate (DINP) (250 and 750 mg/kg) and 1,1-dichloro-2,2-bis(p-chlorophenyl)ethylene (p,p'-DDE) (50 and 100mg/kg) on 19.5-day-old fetal Sprague-Dawley rat testicular and adrenal steroidogenesis. Maternal exposure to DINP or p,p'-DDE on embryonic days (EDs) 13.5-17.5 did not down-regulate the activity of steroidogenesis in ED 19.5 male rat fetus. Protein expression levels of testicular and adrenal StAR, P450scc, 3beta-HSD and androgen receptor (AR) did not show any changes. However, p,p'-DDE caused clear abnormalities in the ultrastructure of steroidogenic cells in ED 19.5 rat testis and adrenal. These structural alterations can disturb the development and function of fetal testis and adrenal that may become evident later in life.
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PMID:Effects of maternal exposure to di-isononylphthalate (DINP) and 1,1-dichloro-2,2-bis(p-chlorophenyl)ethylene (p,p'-DDE) on steroidogenesis in the fetal rat testis and adrenal gland. 1949 Sep 97

The peripheral-type benzodiazepine receptor (PBR), a putative receptor in Leydig cells, modulates steroidogenesis. Since benzodiazepines are commonly used in regional anesthesia, their peripheral effects need to be defined. Therefore, this study set out to investigate in vitro effects of the benzodiazepine midazolam (MDZ) on Leydig cell steroidogenesis, and the possible underlying mechanisms. The effects of MDZ on steroidogenesis in primary mouse Leydig cells and MA-10 Leydig tumor cells were determined by radioimmunoassay. PBR, P450scc, 3beta-HSD and StAR protein expression induced by MDZ was determined by Western blotting. Inhibitors of the signal transduction pathway and a MDZ antagonist were used to investigate the intracellular cascades activated by MDZ. In both cell types, MDZ-stimulated steroidogenesis in dose- and time-dependent manners, and induced the expression of PBR and StAR proteins, but had no effect on P450scc and 3beta-HSD expressions. Moreover, H89 (PKA inhibitor) and GF109203X (PKC inhibitor) attenuated MDZ-stimulated steroid production. Interestingly, the MDZ antagonist (flumazenil) did not decrease MDZ-induced steroid production in both cell types. These results highly indicated that MDZ-induced steroidogenesis in mouse Leydig cells via PKA and PKC pathways, along with the expression of PBR and StAR proteins. In addition, MDZ at high dosages induced rounding-up, membrane blebbing, and then death in MA-10 cells. In conclusion, midazolam could induce Leydig tumor cell steroidogenesis, and high dose of midazolam could induce apoptosis in Leydig tumor cells.
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PMID:The effect of midazolam on mouse Leydig cell steroidogenesis and apoptosis. 1985 60

The adrenals of humans and primates could secrete large amounts of dehydroepiandrosterone (DHEA) and its sulphate ester (DHEA-S) in the circulation, which act as precursors of active steroid hormones in a long series of peripheral target intracrine tissues. The marked decline of serum DHEA and DHEA-S concentrations with age in humans has been incriminated in the development of various pathologies. Therefore, this study aims to provide detailed information on the effects of the intraperitoneal injection of DHEA on circulating steroid hormones and their metabolites and their trade-off relationship over 24 h in male rats. In this study, 100 healthy adult male Sprague-Dawley (SD) rats were randomly divided into three groups: control, 25 mg kg(-1) DHEA-treated and 100 mg kg(-1) DHEA-treated. The animals were sacrificed at 0, 1.5, 3, 6, 12 or 24 h, and the samples were collected for subsequent analysis. Total cholesterol (TC) markedly decreased 3h after the administration of 100 mg kg(-1) DHEA, but markedly increased 12h after administration. The DHEA-S, progesterone (P), testosterone (T), oestradiol (E(2)), cortisol (Cor) and aldosterone (Ald) concentrations also markedly increased after DHEA administration, with serum DHEA-S, T, E(2) and Cor levels peaking at 1.5 h. Over time, steroid hormone levels were depressed, but serum Cor and Ald levels were markedly elevated relative to the control group at 24 h. Furthermore, DHEA treatment produced a significant increase in P450scc, 17beta-HSDIII, CYP17alpha and 3beta-HSD mRNA expression at 1.5 h, but a decided decrease in P450scc and StAR mRNA expression at 12 and 24 h, and CYP17alpha and 17beta-HSDIII expression at 12 h in the 100 mg kg(-1) DHEA group. In total, the results of the present study indicate that DHEA at high pharmacological doses may affect steroid through an effect on steroidogenic enzymes.
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PMID:The expression of serum steroid sex hormones and steroidogenic enzymes following intraperitoneal administration of dehydroepiandrosterone (DHEA) in male rats. 1996 67


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