EC:1.1.1.3 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.1.1.3 (HSD)
3,464 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Steroidogenic factor-1/adrenal 4-binding protein (SF-1/Ad4BP) is an orphan nuclear receptor/transcription factor known to regulate the P450 steroid hydroxylases; however, mechanisms that regulate the activity of SF-1/Ad4BP are not well defined. In addition, little is known about the mechanisms that regulate the human steroidogenic enzyme, type II 3beta-hydroxysteroid dehydrogenase (3beta-HSD II), the major gonadal and adrenal isoform. Regulation of the 3beta-HSD II promoter was examined using human adrenal cortical (H295R; steroidogenic) and cervical (HeLa; non-steroidogenic) carcinoma cells. H295R cells were transfected with a series of 5' deletions of 1251 base pairs (bp) of the 3beta-HSD II 5'-flanking region fused to a chloramphenicol acetyltransferase (CAT) reporter gene followed by treatment with or without phorbol ester (phorbol 12-myristate 13-acetate; PMA). CAT assay data indicated that the region from -101 to -52 bp of the promoter was required for PMA-induced expression. A putative SF-1/Ad4BP regulatory element, TCAAGGTAA, was identified by sequence homology at -64 to -56 bp of the promoter. Cotransfection of HeLa cells with the -101 3beta-HSD-CAT construct and an expression vector for SF-1/Ad4BP increased CAT activity 49-fold. Subsequent treatment with PMA induced an unexpected synergistic increase in transcriptional activity 540-fold over basal. Mutation of the putative response element (TCAAGGTAA to TCAATTTAA) abolished SF-1-induced CAT activity and the synergistic response to PMA. Gel mobility shift assays confirmed that SF-1/Ad4BP interacts with the putative element and transcripts for SF-1/Ad4BP were detected in H295R cells by Northern analysis. These data are the first to demonstrate 1) regulation of a non-cytochrome P450 steroidogenic enzyme promoter by SF-1/Ad4BP, 2) a powerful synergistic effect of PMA on SF-1/Ad4BP-induced transcription, and 3) the importance of the SF-1/Ad4BP regulatory element in the regulation of the 3beta-HSD II promoter.
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PMID:Synergistic activation of the human type II 3beta-hydroxysteroid dehydrogenase/delta5-delta4 isomerase promoter by the transcription factor steroidogenic factor-1/adrenal 4-binding protein and phorbol ester. 906 66

The enzyme 3beta-hydroxysteroid dehydrogenase (3beta-HSD) is a key enzyme in the biosynthesis of steroid hormones. To date, this laboratory has isolated and characterized five distinct 3beta-HSD complementary DNAs (cDNAs) in the mouse (3beta-HSD I through V). These different forms are expressed in a tissue- and developmentally-specific manner and fall into two functionally distinct enzymes. 3beta-HSD I and III, and most likely II, function as dehydrogenase/isomerases, whereas 3beta-HSD IV and V function as 3-ketosteroid reductases. This study describes the isolation, characterization, and tissue-specific expression of a sixth member of this gene family, 3beta-HSD VI. This new isoform functions as an NAD+-dependent dehydrogenase/isomerase exhibiting very low Michaelis-Menten constant (Km) values for pregnenolone (approximately 0.035 microM) and dehydroepiandrosterone (approximately 0.12 microM). 3beta-HSD VI is the earliest isoform to be expressed during embryogenesis in cells of embryonic origin at 7 and 9.5 days postcoitum (pc), and is the major isoform expressed in uterine tissue at the time of implantation (4.5 days pc) and continues to be expressed in uterine tissue at 6.5, 7.5, and 9.5 days pc. 3beta-HSD VI is expressed in giant trophoblasts at 9.5 days pc and is expressed in the placenta through day 15.5 pc. In the adult mouse, 3beta-HSD VI appears to be the only isoform expressed in the skin and also is expressed in the testis, but to a lesser extent than 3beta-HSD I. Mouse 3beta-HSD VI cDNA is orthologous to human 3beta-HSD I cDNA. Human type I 3beta-HSD has been shown to be the only isoform expressed in the placenta and skin. The demonstration that mouse 3beta-HSD VI functions as a dehydrogenase/isomerase and is the predominant isoform expressed during the first half of pregnancy in uterine tissue and in embryonic cells suggests that this isoform may be involved in local production of progesterone, which is needed for successful implantation of the blastocyst and/or maintenance of early pregnancy.
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PMID:Isolation of a new mouse 3beta-hydroxysteroid dehydrogenase isoform, 3beta-HSD VI, expressed during early pregnancy. 907 93

We have previously shown a decrease in fetal zone-specific ACTH-stimulable dehydroepiandrosterone formation and an increase in definitive zone-specific cortisol biosynthesis in the baboon fetal adrenal gland in the second half of gestation. Therefore, the fetal and definitive zones seem to develop a divergence in functional capacity with advancing gestation. We have proposed, therefore, that there is a selective decrease in ACTH receptor expression and thus tropic responsivity to ACTH within the fetal zone in the second half of primate pregnancy. The present study examined this possibility and whether corresponding changes occurred in the developmental expression of major components required for steroidogenesis. ACTH receptor messenger RNA (mRNA) levels, determined by in situ hybridization, in the fetal zone of the baboon fetal adrenal were approximately 2-fold greater (P < 0.05) at mid (i.e. day 100) than at late (i.e. day 170) gestation and 3-fold greater (P < 0.01) in the definitive zone than in the fetal zone in late gestation (term = 184 days). Both ACTH receptor and low density lipoprotein receptor mRNA levels, determined by Northern blot in the whole fetal adrenal, also decreased (P < 0.001) by approximately 50%, whereas the mRNA levels for the definitive zone-specific delta5-3beta-hydroxysteroid dehydrogenase/isomerase (3beta-HSD) enzyme required for cortisol biosynthesis increased over 13-fold (P < 0.001) between mid and late gestation. In contrast, mRNA expression of the steroidogenic enzymes P-450 cholesterol side-chain cleavage and 17alpha-hydroxylase/17-20 lyase were unchanged throughout gestation. We conclude that the decrease in ACTH receptor mRNA expression and ACTH-stimulable dehydroepiandrosterone formation in the second half of gestation reflect a decline in functional capacity of the fetal zone, whereas the increase in 3beta-HSD mRNA expression and cortisol production results from the ACTH receptor-mediated development and enhanced functional capacity of the definitive zone.
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PMID:Decline in adrenocorticotropin receptor messenger ribonucleic acid expression in the baboon fetal adrenocortical zone in the second half of pregnancy. 907 25

It is hypothesized that the two-cell model for estrogen production by the ovarian follicle is preserved in the primate corpus luteum, but there is little direct evidence to support this theory. To determine the sites of androgen and estrogen synthesis within the primate corpus luteum and to ascertain whether changes in steroid hormone levels are related to steroidogenic enzyme expression, the enzymes converting progesterone to androgen (cytochrome P450 17alpha-hydroxylase/17,20 lyase; P450(c17)) and then to estrogen (aromatase; P450(arom)), as well as P450 side-chain cleavage (P450(scc)) and 3beta-hydroxysteroid dehydrogenase (3beta HSD), were detected by immunohistochemistry in macaque luteal tissue throughout the menstrual cycle and simulated early pregnancy. Corpora lutea were collected from rhesus monkeys in the early (Days 2-4 post-LH surge), mid (Days 6-8), mid-late (Days 10-12), and late (Days 14-15) luteal phase and after 1, 3, 6, or 9 days of hCG treatment that began on Day 9 of the luteal phase. Specific cytoplasmic staining for P450(c17), P450(arom), P450(scc), and 3beta HSD was present in luteal cells, but not in the microvasculature, within all luteal tissues examined. P450(c17)-stained luteal cells were located along the vascular tracts and around the periphery of the corpus luteum. Intensely stained luteal cells were associated with blood vessels entering from the outer surface of the corpus luteum, but not with blood vessels returning from the connective tissue centrum. In contrast, P450(arom)-stained luteal cells were distributed throughout the luteal parenchyma. P450(c17) staining intensity was similar at all stages of the luteal phase; however, the number and intensity of P450(arom)-stained cells decreased by late luteal phase. In simulated early pregnancy, cells stained for P450(c17) were present near blood vessels, with some positive cells scattered throughout the corpus luteum. P450(arom) immunostaining was heterogeneous within the corpus luteum; many intensely stained cells were interspersed among others that were only lightly stained. Overall, cellular staining for P450(c17) and P450(arom) remained intense through 9 days of simulated early pregnancy. In contrast, P450(scc) and 3beta HSD immunoreactivity were not located in distinct luteal compartments. These results are consistent with a two-cell model for steroid hormone production in the primate corpus luteum, whereby paraluteal (theca-luteal) cells produce androgen substrate that is converted to estrogens by true (granulosa-) luteal cells. The divergence in enzyme detection as the luteal phase progresses, with P450(c17) labeling high and P450(arom) staining having decreased, suggests a shift in the function of the corpus luteum as it ages. Enzyme localization during chorionic gonadotropin exposure simulating early pregnancy demonstrates the continued capacity of the primate corpus luteum to produce steroid hormones.
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PMID:Localization of steroidogenic enzymes in macaque luteal tissue during the menstrual cycle and simulated early pregnancy: immunohistochemical evidence supporting the two-cell model for estrogen production in the primate corpus luteum. 916 Jul 4

The objective of the present study was to examine changes in expression of mRNA encoding 3beta-hydroxysteroid dehydrogenase delta4,delta5 isomerase (3beta-HSD) during recruitment and selection of bovine ovarian follicles. Dairy heifers (4-5/time period) were ovariectomized at 12, 24, 36, 48, 60, 72, 84, or 96 h after initiation of the first follicular wave (Time 0) following estrus. Expression of 3beta-HSD mRNA was localized by in situ hybridization and quantified by image analysis. Expression of 3beta-HSD mRNA was first detected in theca interna cells of preantral follicles with a well-developed theca layer and in granulosa cells of follicles > or = 8 mm in diameter. Regardless of stage of follicular wave, expression of 3beta-HSD mRNA in granulosa cells of follicles > or = 8 mm was correlated with follicular size (r = 0.665; p < 0.01). The 36-h time period appeared to be a transition period for selection since dominant follicles were detected by size and expression of 3beta-HSD mRNA in some cows but not in others. By 48 h after wave initiation, dominant follicles could be identified by both size and expression of 3beta-HSD mRNA. Expression of mRNA for 3beta-HSD in theca cells was higher (p < 0.05) at 24 h than at 12 h and remained elevated thereafter through 96 h. In contrast to theca cells, expression of mRNA for 3beta-HSD was undetectable within granulosa cells at 12 and 24 h. At 36 h, 3beta-HSD mRNA was expressed in granulosa cells of healthy follicles > or = 8 mm, and expression was higher (p < 0.05) at 48 h compared with 36 h. Expression of 3beta-HSD mRNA levels increased further in granulosa cells (p < 0.05) at 84 and 96 h compared to 48 h. Upon detection of mRNA for 3beta-HSD in granulosa cells, high levels of expression were always found in one (dominant) follicle/cow with the exception of two cows at 36 and 84 h that expressed 3beta-HSD mRNA in two large healthy follicles. Expression of 3beta-HSD mRNA was also detectable in granulosa cells of a few large atretic follicles in which remnant granulosa cells appeared to be luteinized. Healthy follicles expressed higher (p < 0.05) levels of 3beta-HSD mRNA in both theca and granulosa cells than did atretic follicles. Expression of 3beta-HSD mRNA in theca cells was higher (p < 0.01) in dominant follicles than in other subordinate healthy follicles. These results indicate that only selected dominant follicles express 3beta-HSD mRNA within granulosa cells, and expression increased in both thecal and granulosa cells during the follicular wave. Therefore, expression of 3beta-HSD mRNA within granulosa cells may be associated with the mechanism of selection of the dominant follicle during a follicular wave and may be required for maximum steroid production during follicular dominance.
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PMID:Expression of messenger ribonucleic acid (mRNA) encoding 3beta-hydroxysteroid dehydrogenase delta4,delta5 isomerase (3beta-HSD) during recruitment and selection of bovine ovarian follicles: identification of dominant follicles by expression of 3beta-HSD mRNA within the granulosa cell layer. 916 99

Throughout the majority of intrauterine development, the primate fetal adrenal gland is comprised primarily of fetal zone cells and only late in gestation do definitive zone cells, which express the enzyme delta5-3beta-hydroxysteroid dehydrogenase/isomerase (3beta-HSD) emerge to produce cortisol. The present study was designed to determine whether the induction of definitive zone ACTH receptor messenger RNA (mRNA) levels and components of the steroidogenic pathway known to be expressed specifically in the definitive zone, e.g. the 3beta-HSD enzyme, are dependent upon fetal pituitary ACTH. Fetal pituitaries and adrenal glands were obtained on day 165 (term = day 184) from untreated controls (n = 7) and from baboons in which betamethasone was administered im to the fetus (0.6 mg/100 microl; n = 4) or to the fetus (0.6 mg) and mother (6 mg/ml; n = 4) every other day between days 150 and 164 of gestation. Although fetal pituitary weight was not altered by betamethasone, POMC mRNA levels determined by in situ hybridization were lower (P < 0.05) in betamethasone-treated (0.34 +/- 0.07 arbitrary densitometric units) than in untreated controls (0.63 +/- 0.04). Associated with this decline in pituitary POMC, levels of the major 3.4-kb mRNA transcript for the ACTH receptor expressed as a ratio of beta-actin were approximately 80% lower (P < 0.05) in fetal adrenals of betamethasone-treated baboons (0.12 +/- 0.02) than in untreated controls (0.84 +/- 0.05). In situ hybridization indicated that ACTH receptor mRNA expression in the definitive zone exceeded that in the fetal zone and was reduced by betamethasone. Associated with the decrease in ACTH receptor expression, fetal adrenal weight was suppressed (P < 0.05) by 50% and reflected a marked reduction (P < 0.05) in the size of the cells of the definitive and fetal zones. Betamethasone treatment also induced a decrease (P < 0.05) in the width (microm) of the definitive zone (183 +/- 14 vs. 128 +/- 7; determined by immunohistochemical expression of 3beta-HSD), as well as the levels of the mRNA and protein for 3beta-HSD. Levels of the mRNA for the LDL-receptor and the enzymes 17alpha-hydroxylase-C(17,20) lyase and P450 cholesterol side chain cleavage were also suppressed in adrenals of betamethasone-treated baboons. These findings indicate that treatment of the baboon fetus with betamethasone in late gestation suppressed fetal pituitary POMC mRNA expression and ACTH receptor mRNA levels in the fetal adrenal gland, as well as the hypertrophy and ACTH receptor mRNA and 3beta-HSD mRNA/protein levels in the cells comprising the newly emerging definitive zone. We conclude that ACTH is necessary for the up-regulation of the mRNAs for the ACTH receptor and steroidogenic enzymes in the definitive zone of the primate fetal adrenal gland in late gestation.
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PMID:Inhibition of fetal adrenal adrenocorticotropin receptor messenger ribonucleic acid expression by betamethasone administration to the baboon fetus in late gestation. 920 7

TGF beta1 has been detected by immunohistochemistry in the rat fetal testis. Therefore, we attempted to determine whether this factor can act as a local regulator of Leydig cell function during fetal development. An inhibitory effect of TGF beta1 on basal and luteinizing hormone (LH)-stimulated testosterone secretion by fetal testes in vitro was observed only with testes from 13.5 day-old fetuses and not with testes from older stages. The lack of effect of exogenous TGF beta1 in organ culture after day 13.5 might be related to an elevated intratesticular concentration that would already exert maximal biological effect. On the contrary, in a model of dispersed testicular cells in culture, TGF beta1 was able to inhibit LH-stimulated testosterone production by fetal Leydig cells from 16.5 and 20.5 day-old fetuses. This inhibition of LH-stimulated testosterone production was dose- and time-dependent and was maximal after 48 h of treatment with 1 ng/ml TGF beta1, with testosterone secretion being reduced to 25% of control values. Inhibition of testosterone secretion was also observed in basal and dbcAMP-stimulated conditions, suggesting that one site of action of TGF beta1 is located after the production of cAMP. However, TGF beta1 was also able to inhibit LH-induced cAMP production. As demonstrated by the transformation of steroidogenic precursors into testosterone, TGF beta1 did not significantly alter 3beta-hydroxysteroid dehydrogenase (3beta HSD) activity but induced a strong inhibition of cytochrome P450 17alpha-hydroxylase/C17-20 lyase (P450C17) activity which was associated with a marked diminution of cytochrome P450C17 mRNA levels (26% of control values) but not of cytochrome P450scc mRNA. In addition to its effect on steroidogenesis, TGF beta1 exhibited morphogenic actions on the fetal testicular cells, inducing spreading when the cells were adherent and aggregation when the cells were cultured in conditions of lesser adherence and without any significant effect on either total cell number or 3beta HSD positive cells. Taken together these results suggest that TGF beta1 likely plays a morphogenic and physiological role very early in the fetal testis via paracrine/autocrine mechanisms.
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PMID:Transforming growth factor beta1 inhibits steroidogenesis in dispersed fetal testicular cells in culture. 925 60

Flavodoxin Sepharose (Fld Sepharose), a reagent originally developed to demonstrate an interaction between native Escherichia coli Fld and cytochrome P450c17, has been synthesized, using highly expressed (7 micromol Fld/liter E. coli culture) recombinant E. coli Fld, for use as an affinity resin for microsomal cytochromes P450. As a test of the specificity of Fld Sepharose, we have examined the utility of this resin for purification of P450c17 and P450c21 from a relatively crude mixture of solubilized adrenocortical microsomal proteins. Chromatography of this mixture on Fld Sepharose resulted in a threefold enrichment of cytochrome P450 specific content without spectrally detectable P450 denaturation. Electrophoretic and immunoblot analyses of fractions eluted from the Fld Sepharose column revealed the presence of P450c17 and P450c21, both of which were sufficiently pure, after SDS-PAGE, for identification by N-terminal sequence analysis. Intriguingly, a major protein copurifying with P450c17 and P450c21 was identified as 3beta-hydroxysteroid dehydrogenase (3beta-HSD) which was subsequently found not to directly bind Fld Sepharose. Purified bovine 3beta-HSD covalently linked to Sepharose can bind recombinant bovine P450c17, an interaction which is partially disrupted upon mild heat denaturation of P450c17 or by the nonionic detergent Emulgen. This interaction, however, does not appear to affect P450c17 hydroxylase and lyase activities as measured in vitro. From these results, we propose that 3beta-HSD and P450c17 may associate, perhaps as part of a steroidogenic complex, in the endoplasmic reticulum.
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PMID:Escherichia coli flavodoxin sepharose as an affinity resin for cytochromes P450 and use to identify a putative cytochrome P450c17/3beta-hydroxysteroid dehydrogenase interaction. 934 69

In sheep, increased output of cortisol from the fetal adrenal gland is critical to organ maturation and parturition. Cortisol synthesis is determined in part by the activity of P450(C17) enzyme. We have used immunohistochemistry and Western immunoblotting to examine the distribution of P450(C17) in the ovine fetal adrenal during gestation, and after ACTH or dexamethasone administration to fetuses between Days 125 and 130. The patterns were compared with changes in 3beta-hydroxysteroid dehydrogenase (3beta-HSD) localisation and levels. Adrenal tissue was obtained from four fetuses at each of Days 63-65, 100, 125-130 and term (>140 days). Further animals were chronically catheterised and infused with ACTH, dexamethasone or saline for 96 h beginning on Day 125. Immunohistochemistry for P450(C17), 3beta-HSD, and phenylethanolamine-N-methyl transferase (PNMT) was conducted using standard techniques. At Day 63-65 of pregnancy immunoreactive (ir-)P450(C17) was present in cords of cells throughout the adrenal gland. Ir-P450(C17) was reduced or was undetectable at Day 100, but had increased by Day 125-130, and was present throughout the zona fasciculata of the adrenal cortex of term animals. An increase in P450(C17) protein was also seen between Day 100 and 125 by Western blotting, and after ACTH treatment. Dexamethasone administration led to a marked reduction in ir-P450(C17) levels. In contrast, ir-3beta-HSD was present in the fetal adrenal cortex between Day 100 and term, and was less affected by ACTH or dexamethasone treatment. We conclude that P450(C17) in the fetal sheep adrenal is responsive to regulation by ACTH, and that changes in its levels correlate with previously reported alterations in patterns of cortisol output by the fetal adrenal gland.
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PMID:Immunolocalisation of P450(C17) in the fetal sheep adrenal gland during gestation and in response to ACTH and glucocorticoid administration. 935 4

The cDNA encoding the catfish ovarian aromatase has previously been isolated and described (accession number S75715). As demonstrated previously, the predicted amino acid sequence and enzymatic activity of the encoded protein share a significant degree of similarity to the forms of aromatase found in other vertebrates. Analyses utilizing reverse transcription coupled with the polymerase chain reaction (RT-PCR) demonstrate the expression of aromatase mRNA in catfish brain, testis and ovary. In spite of the evidence provided by Northern blot analysis for a single transcript encoding ovarian aromatase, RT-PCR analysis indicated transcript heterogeneity within the ovary, but not the testis or the brain. Although not characterized, PCR analysis indicated that the transcript complexity of ovarian aromatase was within the encoding region. Until this study, the expression of aromatase and its correlation with the reproductive physiology of fish had not been studied at the molecular level. In the catfish, significant changes in ovarian development were evident following elevation of plasma estradiol titers during October and again in February. Seasonal changes in the expression of ovarian aromatase and 3beta-hydroxysteroid dehydrogenase (3beta-HSD) mRNA was reflected in estradiol plasma titers. Ovarian expression of 3beta-HSD mRNA commenced a month before the message for aromatase was detected. Both transcripts were present from October to April. As the female approached the time of spawning (in May), the abundance of both aromatase and 3beta-HSD transcripts decreased. The aromatase message was not detected in post-spawning females but 3beta-HSD transcripts were evident. These data indicate that the timely synthesis of estradiol in catfish is caused by the regulation of both 3beta-HSD and aromatase.
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PMID:Expression of cytochrome P450 aromatase in the channel catfish, Ictalurus punctatus. 936 16

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