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)

The enzymatic activity of 3 beta-hydroxysteroid dehydrogenase (3 beta HSD/I) constitutes an essential step in the biosynthesis of active steroid hormones such as progesterone, mineralo- and gluco-corticoids, estrogens, and androgens. Its subcellular localization in steroidogenic tissues is usually considered to be mainly microsomal; however, 3 beta HSD/I activity is also present in mitochondrial preparations. In the present study, the distribution of 3 beta HSD/I in bovine adrenocortical subcellular preparations has been reexamined, and the catalytic properties of the enzyme present in the various cell compartments have been characterized. About 30% of the total 3 beta HSD/I was found to remain tightly associated with highly purified mitochondrial preparations. The preferred substrate of the mitochondrial enzyme was pregnenolone. Examination of submitochondrial preparations revealed that 3 beta HSD/I was associated with both the inner membrane and a particulate fraction that sediments in a density gradient between inner and outer membranes. The specific activity of the enzyme was at its highest in this intermediate density fraction, which exhibited the properties of mitochondrial intermembrane contact sites. Taken together, these observations suggest that these contact sites may represent a supramolecular organization of biological significance in adrenocortical cell steroidogenic functions. Such intermembrane fusion sites would facilitate the access of cholesterol to the inner membrane in which cholesterol side-chain cleavage cytochrome P-450 is located as well as the rapid transformation of its reaction product (i.e. pregnenolone) to progesterone by 3 beta HSD/I. Such a submitochondrial organization opens new possibilities in the understanding of the regulation of adrenocortical differentiated functions.
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PMID:Characterization of the 3 beta-hydroxysteroid dehydrogenase activity associated with bovine adrenocortical mitochondria. 811 76

The modulation of the intracellular glucocorticoidal effect on surfactant synthesis of the fetal lung by the metabolic capacity of 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD) could be an important factor in lung maturation. The kinetic properties of microsomal 11 beta-HSD of the rat lung are characterized with respect to product inhibition, substrate specificity, effect of electrolytes or trace elements, and the dependence of the oxidase reductase (OR) ratio on incubation conditions. With NADP+ product inhibition of the reductase was demonstrated. The most common trace elements and electrolytes exhibited no effect on the activity of 11 beta-HSD. It is shown that the OR ratio was strongly dependent on assay conditions. With optimal assay conditions oxidase activity exceeds reductase activity in adult and fetal rat lung microsomes (OR ratio > 1). Thus, glucocorticoids are mainly metabolized to their inactive forms. The enzyme activity in the adult is about 10 times higher than in the fetal lung. The low enzyme activity in fetal lungs could be the reason why the glucocorticoidal effects on surfactant synthesis are not suppressed despite the predominance of oxidase activity.
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PMID:11-beta-Hydroxysteroid dehydrogenase of rat lung: enzyme kinetic, oxidase-reductase ratio, electrolyte and trace element dependence. 819 74

The enzyme 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD) is considered to confer mineralocorticoid specificity on the non-selective Type I adrenocorticoid receptor by converting active 11-hydroxyglucocorticoids to receptor-inactive 11-oxo metabolites, in mineralocorticoid target tissues like the kidney. However, 11 beta-HSD is also present in the liver, where it may regulate steroid exposure to the glucocorticoid Type II receptor. Because of the much higher activities compared to that in kidney, liver 11 beta-HSD possibly has additional functions besides the metabolism of glucocorticoids. In the present investigation we have isolated 11 beta-HSD from mouse liver microsomes and demonstrate that the homogeneously purified enzyme is also capable of catalyzing the reductive metabolism of xenobiotic carbonyl compounds such as metyrapone, p-nitroacetophenone and p-nitrobenzaldehyde. Enzyme kinetic studies revealed that, in addition to NADP+, mouse liver 11 beta-HSD also accepts NAD+ as cosubstrate for glucocorticoid 11 beta-dehydrogenation. NADH as cosubstrate for 11-oxoreduction plays only a minor role compared to that with NADPH, a fact which is also true for xenobiotic carbonyl reduction. Inhibition experiments revealed strong sensitivity of xenobiotic carbonyl reduction to glucocorticoids. The competitive nature of this inhibition suggests that both glucocorticoids and xenobiotic carbonyl substances bind to the same catalytically active site of 11 beta-HSD. High enzyme activities were also found in microsomal fractions of the ovary and adrenal gland but, although expressing considerable glucocorticoid 11-dehydrogenation activity (one third that of liver), almost no carbonyl reduction was detectable in kidney microsomes. Immunoblot analysis with polyclonal antibodies directed against the liver 11 beta-HSD did not yield an immunological crossreaction in the same tissues. In conclusion, corresponding to the cytosolic aldo-keto reductases, microsomal 11 beta-HSD of liver may be considered to play a role in the phase I biotransformation of pharmacologically relevant carbonyl substances as well as protecting organisms against toxic carbonyl compounds by converting them to less lipophilic and more soluble and conjugatable metabolites. Discrepancies in bioactivity together with the lack of response to anti-liver 11 beta-HSD antibodies strongly indicate the existence of distinct forms of 11 beta-HSD to be present in kidney, adrenal gland and ovary. The ability of xenobiotic carbonyl reduction might be another distinguishing feature among the various 11 beta-HSD isozymes.
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PMID:11 beta-hydroxysteroid dehydrogenase mediates reductive metabolism of xenobiotic carbonyl compounds. 820 97

An initial group of term (36-41 6/7 weeks), preterm (less than 36 weeks), and post-term (42 or more weeks) placentae were collected from women at delivery to determine the placental levels of important steroids and steroidogenic enzymes involved in the oestrogen synthesis pathway as a function of gestational age. A second group of placentae were obtained from women delivering at term before and after the onset of labour. Placentae were evaluated individually for cytosolic steroid hormone levels and microsomal steroidogenic enzyme activities. Oestradiol (E2), oestrone (E1), progesterone (P), and delta-4-androstenedione (A) were measured by radioimmunoassay in placental cytosols. Aromatase (AR), sulphatase (S), and 3 beta-hydroxysteroid dehydrogenase/isomerase (3 beta HSD) activities were assayed in placental microsomes. Cytosolic concentrations of E1, E2, P, and A did not differ with respect to gestational age. Correspondingly, the microsomal enzyme activities of 3 beta HSD, S, and AR did not vary as a function of gestational age. However, when patients at term who were in labour prior to delivery were compared to those who were not, the placental cytosolic level of E1 was found to be threefold higher in the non-labouring group (4572 versus 1427 pg/mg cytosolic protein, P < 0.025). Additionally, microsomal aromatase activity was also significantly higher in the non-labouring patients (46 versus 19 pM/min/mg protein, P < 0.025), while the E2 to P ratio in the labouring patients was twice that of the non-labouring group, a difference which was significant at the P < 0.025 level (Wilcoxon rank sum test). These data suggest that at term, prior to labour, the placental production of E1 by AR is high, and that AR activity and E1 levels fall significantly after the onset of labour. Also, the placental cytosolic concentration of the more active oestrogen, E2, demonstrates stable to rising levels with a significant increase in E2/P after the onset of labour. We theorize that in the term pregnancy prior to labour, E1 may represent a large but relatively inactive intracellular oestrogen pool which is maintained by high AR activity, and may function to protect the pregnant local uterine environment from the more oxytocic effects of E2.
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PMID:Oestrogen modulation with parturition in the human placenta. 820 72

Ovaries containing multiple follicular cysts occur in a variety of anovulatory conditions. A macrocystic condition occurs spontaneously in rats following a single injection of estradiol valerate. The ovaries are small, and exhibit scant stromal tissue, few healthy follicles, and numerous large cystic and precystic follicles. We have also generated a microcystic condition by means of subcutaneous estradiol-containing silastic implants. These ovaries are large, and exhibit a stroma of hypertrophied lipid-filled cells, and numerous small cysts encircled by hypertrophied thecal cells. The macrocystic condition is associated with a uniformly attenuated plasma luteinizing hormone (LH) pattern, whereas large LH episodes characterize the microcystic condition. The marked dissimilarities between these two methods suggest that there may be corresponding differences in ovarian steroidogenic activity. We have measured the activity of enzymes involved in progestin and androgen biosynthesis in the two types of multicystic ovaries before and after LH - human chorionic gonadotropin (hCG) stimulation. Control ovaries were obtained at late proestrus from age-matched cycling animals. Radiometric enzyme assays for 3 beta-hydroxysteroid dehydrogenase (3 beta-HSD), 20 alpha-hydroxysteroid dehydrogenase (20 alpha-HSD), C17,20-lyase (lyase), and aromatase were conducted on the microsomal fraction of ovarian homogenates. 3 beta-HSD activity was reduced by > 50% in both types of cystic ovaries compared with controls. There was a slight elevation in the 3 beta-HSD activity of macrocystic ovaries in response to hCG. 20 alpha-HSD activity was similar in controls and macrocystic ovaries but significantly lower (< 20% of control) in the microcystic ovaries. Lyase and aromatase activities were undetectable in cystic ovaries.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Steroidogenic enzyme activities in rat polycystic ovaries. 840 88

The mechanism of dissociated secretion between adrenal androgens and cortisol observed in several clinical situations remains unclear. We investigated whether the electron transfer systems NADPH-cytochrome P450 reductase and cytochrome b5, both of which had been shown to increase 17,20-lyase activity in vitro, were involved in the reaction selectivity between 17 alpha-hydroxylase and 17,20-lyase in adrenocortical adenomas obtained from eight patients with Cushing's syndrome producing different concentrations of adrenal androgen. In vitro enzyme assay using microsomal fraction of adenoma indicated that all adenomas from seven patients showed almost the same degree of 17 alpha-hydroxylase and 3 beta-hydroxysteroid dehydrogenase (3 beta HSD) activities. However, the 17,20-lyase activities of two adenomas producing high concentrations of adrenal androgens were 3-fold greater than those of other five adenomas producing low concentrations of adrenal androgens. The mRNA concentrations of cytochrome P45017 alpha and 3 beta HSD were approximately the same in all adenomas, whereas those of cytochrome b5 in two adenomas possessing high 17,20-lyase activities were greater than those in other adenomas. The increased levels of cytochrome b5 in the two adenomas were further confirmed at the protein level using Western blot analysis of the microsomal fraction. No significant expression of NADPH-cytochrome P450 reductase was detected in any of the adenomas by Northern blot analysis. These results suggest that the difference in the concentration of cytochrome b5 in adrenal adenomas from patients with Cushing's syndrome may partially account for the difference in the amount of adrenal androgens produced by the tumors.
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PMID:High expression of cytochrome b5 in adrenocortical adenomas from patients with Cushing's syndrome associated with high secretion of adrenal androgens. 849 19

11 beta-Hydroxysteroid dehydrogenase (11 beta-HSD) modulates glucocorticoid interactions with mineralocorticoid and glucocorticoid receptors in vivo, by converting 11 beta-hydroxyglucocorticoids to their inactive 11-ketone derivatives. Defective 11 beta-oxidation of glucocorticoids has been associated with hypertension. The objective of this study was to investigate whether 11 beta-HSD contributes to the occurrence of hypertension in spontaneously hypertensive rats (SHRs). The liver and kidney microsomal oxidations of corticosterone (the physiological glucocorticoid in rats) in organs from juvenile (3 weeks old) and adult (3 months old) SHR and Wistar-Kyoto (WKY) rats, with NAD and NADP, show no differences between rat strains. For cortisol, with NADP, adult SHRs show (1.3-3 times; P < 0.05) lower kidney microsomal oxidation rates. The liver microsomal reduction of cortisone shows remarkable interstrain differences; with NADH, reduction is conducted only by adult WKY rats, whereas with NADPH, juvenile animals show similar reduction rates, but at adulthood, only WKYs reduce cortisone. Using Western blot analysis with antibodies against 11 beta-HSD1, positive signals are obtained only for liver microsomes, appearing somewhat lower in SHRs for juvenile but not adult animals. Urinary corticosterone/11-dehydrocorticosterone ratios (measured in adult animals) are not different between rat strains, but are elevated after administration of corticosterone in both strains (although significant only in SHRs). The data provide no indications for exaggerated stimulation of renal corticosteroid receptors, due to modified 11 beta-HSD, in SHRs. However, the experiments suggest the existence of multiple 11 beta-HSDs, in addition to 11 beta-HSD1 and 11 beta-HSD2, some of which may be modified in SHR, but the nature and physiological role of these 11 beta-HSDs is unclear.
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PMID:Comparison of 11 beta-hydroxysteroid dehydrogenase in spontaneously hypertensive and Wistar-Kyoto rats. 858 2

11 beta-hydroxysteroid dehydrogenase (11 beta-HSD) is a microsomal enzyme present in the peripheral tissues of the rat, including the liver, and is mediated by a number of factors in animal in vivo studies. However, the effect of peptide hormones and glucocorticoids on the activity of 11 beta-HSD in isolated rat hepatocytes is not clear. To investigate these effects, we determined 11 beta-HSD activity in a primary culture of rat hepatocytes by adding various concentrations of growth hormone, insulin and dexamethasone (Dex). 11 beta-HSD activity increased significantly after treatment with Dex (10(-9)M-10(-6)M) for 48h. Dex (100nM) treated hepatocytes, incubated for 12h to 48h, resulted in a significant two-to four-fold rise in 11 beta-HSD activity compared to control (p < 0.01), which was in contrast to GH (10(-9)M-10(-6)M) and insulin (10(-8)M-10(-5)M), which inhibited 11 beta-HSD activity (p < 0.05). These results suggest that the 11 beta-HSD of rat hepatocytes is under multifactorial regulation; Dex stimulates and GH and insulin inhibit 11 beta-HSD activity in primary cultures of rat hepatocytes.
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PMID:Effect of growth hormone, insulin and dexamethasone on 11 beta-hydroxysteroid dehydrogenase activity on a primary culture of rat hepatocytes. 869 33

The enzymatic activity of 3 beta-hydroxysteroid dehydrogenase 5-ene isomerase (3 beta HSD/I) catalyzes an essential step in the biosynthesis of steroid hormones including progesterone, mineralocorticoids, glucocorticoids, estrogens, and androgens. Its subcellular localization in steroidogenic tissues is usually considered to be mainly microsomal. The present study demonstrates that in the interrenal of Bufo aernarum H., 3 Beta HSD/I activity localizes in mitochondria and micromes. It also shows that the two distinct pathways to aldosterone previously demonstrated for interrenals of B. arenarum H. exhibited differential subcellular localizations, microsomal for the 4-ene route and mitochondrial for the 5-ene route. Kinetic constants of 3 Beta HSD/I were determined for the oxidation of pregnenolone and the recently described 3 Beta-hydroxy analogue of aldosterone (3 Beta AA). The preferred substrate of the mitochondrial 3 Beta HSD/I enzyme was 3 Beta AA (Km = 0.7 microM and 14.0 microM for 3 Beta AA and pregnenolone, respectively). However, the microsomal enzyme has a greater affinity for pregnenolone (Km = 0.8 microM) than for 3 Beta AA (Km = 17.0). Enzymes from both localizations have similar nucleotide (NAD+) requirements, activities being higher in summer. This dual localization opens novel possibilities for the regulation of interrenal functions.
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PMID:Mitochondrial localization of 3 beta-hydroxysteroid dehydrogenase 5-ene isomerase in interrenals of the toad Bufo arenarum H. 881 65

Mineralocorticoid receptor (MR) selectivity for aldosterone is thought to be exerted by enzymes which inactivate competing glucocorticoids before they bind the receptor. Two different 11 beta-hydroxysteroid dehydrogenases (11 beta-HSD) have been described. 11 beta-HSD-1 is NADP(+)-dependent and has a Km in the micromolar range and bidirectional activity. 11 beta-HSD-2 is NAD(+)-dependent, has a Km in the nanomolar range, exhibits only oxidase activity, and colocalizes with the MR in the kidney, so is likely to serve as the gatekeeper for the MR. We have further characterized 11 beta-HSD activity in JEG-3 cells, a cell line derived from a human choriocarcinoma which was reported to have only the high affinity, NAD(+)-dependent 11 beta-HSD-2. We found that the Km for the conversion of corticosterone to 11-dehydrocorticosterone in intact cells and homogenates was about 16 nM. NAD(+)-dependent corticosterone conversion was equal in the nuclear and mitochondrial fractions and less, but significant, in the microsomal fraction. A high affinity, Km = 40 nM, NADP(+)-dependent enzyme was also found in homogenates. The subcellular distribution of this high affinity activity was greatest in the mitochondria, less in the nuclei, and even less, but still significant, in microsomes. Because of its cofactor dependency, high affinity, and different subcellular distribution, we suggest that this enzyme is neither the 11 beta-HSD-1 nor the 11 beta-HSD-2 and have named it 11 beta-HSD-3. Conversion of 11-dehydrocorticosterone to corticosterone did not occur in intact cells or in homogenates incubated with NADH or NADPH. Enzyme activity in intact cells was inhibited by glycyrrhetinic acid, carbenoxolone, progesterone, 5 beta-dihydroprogesterone, and 5 alpha-dihydroprogesterone, but not bile acids.
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PMID:11 beta-hydroxysteroid dehydrogenases of the choriocarcinoma cell line JEG-3 and their inhibition by glycyrrhetinic acid and other natural substances. 885 27


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