Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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 syndrome of apparent mineralocorticoid excess (AME) is a heritable form of hypertension due to an inborn error of cortisol metabolism and is characterized by hypokalemia and low renin levels despite subnormal or normal levels of aldosterone and other known mineralocorticoids. The syndrome is attributable to congenital deficiency of the enzyme 11 beta-hydroxydehydrogenase (11 beta-HSD), which converts cortisol (F) to biologically inactive cortisone. This results in a prolonged half-life of F, which acts at the kidney level as a potent mineralocorticoid (MC). In fact, both F and aldosterone have similar affinities in vitro for type I MC receptor (MR), and 11 beta-HSD activity protects the MR in vivo from the higher circulating levels of F. The biochemical marker of this disorder is an increased ratio of tetrahydrocortisol (THF) + allo-THF/tetrahydrocortisone (THE) in the urine, which has been found in more than 20 patients described to date, together with evidence of a more general defect in steroid ring A reduction. Only a few cases (the so-called type II form) described in Italy differ from the classic form having a normal THF/THE ratio, but in both forms the ratio of free urinary F/E has recently been found to be similarly high. Dexamethasone is the treatment of choice but is often inadequate in long term control of high blood pressure. Acquired forms of AME are those consequent on abuse of licorice or carbenoxolone, which both inhibit 11 beta-HSD; the latter also inhibits the reverse 11-oxoreductase reaction leading to somewhat different abnormalities of urinary cortisol/cortisone. So far, two isoenzymes of 11 beta-HSD have been purified and cloned; 11 beta-HSD type 1 is NADP-dependent, abundant in liver, lung, and testis, and catalyzes both 11 beta-dehydrogenation and 11 beta-oxoreduction; no mutation in its gene was detected in patients with AME. A second NAD-dependent isoenzyme is present in kidney and placenta and catalyzes dehydrogenation only. Very recently (1995) two groups have independently demonstrated the presence of mutations in its gene, located in chromosome 16q22. New and co-workers found a point mutation in exon 6 of two affected siblings of an Iranian family, while White and co-workers in parallel studies showed point mutations or small deletions in both alleles in nine unrelated patients; importantly, expression studies showed minimal or absent activity for almost all the mutant sequences. No definite mutations have been so far identified in patients with AME type II. AME is thus the third single gene cause of human hypertension to be described, after glucocorticoid remediable aldosteronism in 1992 and Liddle's syndrome in 1994.
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PMID:Apparent mineralocorticoid excess: type I and type II. 873 99

The inactivation of physiological glucocorticoids by 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD) confers mineralocorticoid specificity to certain aldosterone target tissues. Both NADP, and NAD-dependent isoforms of 11 beta-HSD have been described. An NAD-dependent isoform of 11 beta-HSD (11 beta-HSD2) was recently cloned from human kidney. The present studies were designed to examine the cellular distribution of 11 beta-HSD2 in human kidney and colon, and to determine if the cellular distribution of 11 beta-HSD2 within the human kidney and colon is consistent with a role in conferring mineralocorticoid specificity. Using antibodies against a fusion protein containing a portion of the human 11 beta-HSD2, immunohistochemical staining of human kidney showed intense, specific staining of connecting tubules and cortical and medullary collecting tubules and less intense staining in the cortical thick ascending limb. No immunoreactivity was found in proximal tubules, glomeruli, or blood vessels. Within the collecting tubules staining was heterogeneous. The majority of cells showed intense cytoplasmic staining while alpha-intercalated cells displayed much less immunoreactivity. Within the colon, 11 beta-HSD2 immunoreactivity was found predominantly in surface epithelial cells but not in submucosal tissues. Thus, the distribution of the cloned NAD-dependent 11 beta-HSD2 parallels the distribution of mineralocorticoid receptors within the kidney and colon. These results support the view that the NAD-dependent isoform of 11 beta-HSD (11 beta-HSD2) provides mineralocorticoid specificity by inactivating glucocorticoids in an autocrine fashion.
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PMID:Immunolocalization of NAD-dependent 11 beta-hydroxysteroid dehydrogenase in human kidney and colon. 877 Sep 80

The type 2 isoform of 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD2), which catalyzes the conversion of cortisol to hormonally inactive cortisone in man, is principally expressed in the placenta and mineralocorticoid target tissues, kidney and colon. To date, few studies have addressed the regulation of this novel 11 beta-HSD2 isoform. We have characterized the nature and regulation of the 11 beta-HSD activity expressed in a human cytotrophoblastic cell line, the JEG-3 choriocarcinoma cell. The 11 beta-HSD activity in JEG-3 cell homogenates required NAD+ as cofactor with NADP+ ineffective and demonstrated a high affinity for cortisol (apparent Km 31 nM). Incubation of JEG-3 cells with forskolin and dibutyryl cyclic AMP increased 11 beta-HSD2 activity several-fold in a time-dependent manner, while treatment with phorbol ester had little, if any, effect on 11 beta-HSD2 activity. Northern blot analysis of RNA isolated from JEG-3 cells after these treatments demonstrated a marked increase in a 1.9 kb 11 beta-HSD2 mRNA species in cells treated with forskolin for 24 h. We conclude that 11 beta-HSD2 is regulated by activation of the protein kinase A pathway, but not the protein kinase C pathway in human choriocarcinoma cells, and that this regulation occurs at a pretranslational level. JEG-3 cells provide an excellent model for further studies on the regulation of 11 beta-HSD2 gene expression in human trophoblast tissue.
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PMID:Regulation of 11 beta-hydroxysteroid dehydrogenase type 2 activity and mRNA in human choriocarcinoma cells. 878 85

The enzyme 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD) reversibly converts biologically active cortisol to inactive cortisone, and when present in placentae may act to protect fetuses from high concentrations of maternal glucocorticoids. Experiments were conducted to characterize placental 11 beta-HSD oxidative activity (conversion of cortisol to cortisone), to measure effects of gestational age and uterine environment on 11 beta-HSD, and to determine any associations between placental 11 beta-HSD and fetal size. Characterization of placental 11 beta-HSD at 100 days of gestation suggests the presence of two different isoforms, one that is NADP(+)-dependent and a second that is NAD(+)-dependent. The putative NAD(+)-dependent isoform has a lower Km (nM range) and a greater Vmax, and is likely to be more biologically relevant. Placentae were then obtained at 50, 75, and 100 days of gestation from uterine environments that subsequent to uterine ligations on Day 2 of gestation were either "crowded" (< or = 20 cm/potential embryo) or "roomy" (> or = cm/potential embryo). Fetal weight and length were increased (p < or = 0.015) in the roomy compared with the crowded uterine environment at each gestational age. Both NADP(+)- and NAD(+)-dependent 11 beta-HSD increased almost fivefold between 50 and 100 days of gestation (p < 0.02). At each gestational age, the amount of NAD(+)-dependent 11 beta-HSD was over twofold greater (p < 0.001) than that of NADP(+)-dependent 11 beta-HSD. Significant statistical interactions among gestational age, uterine environment, and fetal sex indicate that the effects of these factors on placental 11 beta-HSD activity are complex. When all factors associated with the experimental model were taken into account, there were no significant associations between fetal or placental size and placental 11 beta-HSD activity. These findings demonstrate the existence of porcine placental 11 beta-HSD activity, suggest the presence of two isoforms, indicate effects of gestational age, and suggest effects of uterine environment and fetal sex on these activities.
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PMID:Porcine placental 11 beta-hydroxysteroid dehydrogenase activity. 879 78

Benign meningioma tumors possess significant levels of 17 beta-hydroxysteroid dehydrogenase (17 beta-HSD) activity. Two different 17 beta-HSDs were discovered in human placenta: one highly estrogen specific and using NADP+/NADPH as cofactors (type-1 17 beta-HSD), and a second one that utilizes both androgens and estrogens as substrates with NAD+/NADH (type-2 17 beta-HSD). Recently, two further human 17 beta-HSDs were isolated. A testis-specific 17 beta-HSD (type-3 17 beta-HSD) favors the reduction of delta 4-androstenedione to testosterone, and a ubiquitously expressed type-4 17 beta-HSD preferentially catalyzes the oxidation of estradiol and delta 5-androstenediol. In this study we characterize the expression levels of different types of 17 beta-HSD in a wide series of tumors. Using the Northern blotting method we show that type-1, -3, and -4 17 beta-HSDs are not detectable in meningiomas. In contrast, the type-2 17 beta-HSD RNA is present in 6 of 17 meningiomas and its abundance is directly correlated with estrogenic 17 beta-HSD activity (r2 = 0.74). The presence of type-2 17 beta-HSD is also demonstrated by in situ hybridization. RT-PCR and Western blots show that type-4 17 beta-HSD is also present, though at much lower levels. The progesterone receptor level, the epidermal growth factor receptor level, and the age of the patients are not correlated with the estrogenic 17 beta-HSD activity or type-2 17 beta-HSD mRNA expression level.
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PMID:17 beta-Hydroxysteroid dehydrogenase activity correlates with the type-2 17 beta-hydroxysteroid dehydrogenase mRNA abundance in human meningioma tumors. 881 69

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

1. The enzyme 11 beta-hydroxysteroid dehydrogenase (11 beta HSD) converts glucocorticoids to their inactive 11-keto metabolites. The ubiquitous expression of the NADP-dependent isoform (11 beta HSD1) suggest an important role in modulating glucocorticoid action, but little is known about 11 beta HSD1 gene expression and enzymatic activity in the rat heart. 2. In the present study rat cardiac 11 beta HSD1 activity and ontogeny of gene expression have been characterized. The addition of NADP, but not NAD, to heart homogenates resulted in significant increases in the metabolism of both corticosterone and cortisol, with the former substrate displaying far greater metabolism. Both 11 beta HSD1 gene expression and enzyme activity increased in parallel from low levels at 1 week of age to maximal levels at 8 weeks, with no further change by 16 weeks of age. 3. We also compared the activity of 11 beta HSD1 in the hearts of male and female spontaneously hypertensive rats (SHR) with normotensive Wistar-Kyoto (WKY) controls. Enzyme activity in the pooled atria of female SHR was significantly higher than in male SHR atria (7.6 +/- 0.6% conversion of corticosterone vs 4.5 +/- 0.5%; P < 0.05). The left ventricles of female WKY rats contained significantly less 11 beta HSD activity than either male WKY rats or female SHR (8.6 +/- 0.8% conversion vs 17 +/- 1.4 and 13.6 +/- 0.5%, respectively; P < 0.05). In the right ventricle, female WKY rats also had significantly less enzyme activity than either female SHR or male WKY rats (4.9 +/- 0.7 vs 10.0 +/- 1.7 and 10.2 +/- 1.4%; P < 0.05). 4. These results clearly show that the rat heart contains significant amounts of the 11 beta HSD1 enzyme and that this activity is sexually dimorphic. Furthermore, significant differences were observed between a normotensive and hypertensive strain of rat. The relevance of these observations to the aetiology and maintenance of hypertension remains to be explored.
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PMID:11 beta-Hydroxysteroid dehydrogenase type I enzyme in the hearts of normotensive and spontaneously hypertensive rats. 888 82

11 beta-Hydroxysteroid dehydrogenase (11 beta-HSD) catalyses the interconversion of biologically active cortisol to inactive cortisone in man, and corticosterone to 11-dehydrocorticosterone in rodents. As such, this enzyme has been shown to confer aldosterone-selectivity on the mineralocorticoid receptor and to modulate cortisol/corticosterone access to the glucocorticoid receptor (GR). Two kinetically distinct isoforms of this enzyme have been characterized in both rodents and man; a low-affinity NADP(H)-dependent enzyme (11 beta-HSD1) which predominantly acts as an oxoreductase and, more recently, a high-affinity NAD-dependent uni-directional dehydrogenase (11 beta-HSD2). In this study we have analysed the expression of both 11 beta-HSD1 and 11 beta-HSD2 isoforms in rat adrenal cortex and medulla and have investigated their possible roles with respect to glucocorticoid-regulated enzymes mediating catecholamine biosynthesis in adrenal medullary chromaffin cells. Using a rat 11 beta-HSD1 probe and a recently cloned in-house mouse 11 beta-HSD2 cDNA probe, Northern blot analyses revealed expression of mRNA species encoding both 11 beta-HSD1 (1.4 kb) and 11 beta-HSD2 (1.9 kb) in the whole adrenal. Consistent with this, 11 beta-dehydrogenase activity (pmol 11-dehydrocorticosterone formed/mg protein per h, mean +/- S.E.M.) in adrenal homogenates, when incubated with 50 nM corticosterone in the presence of 200 microM NAD, was 97.0 +/- 9.0 and with 500 nM corticosterone in the presence of 200 microM NADP, was 98.0 +/- 1.4. 11-Oxoreductase activity (pmol corticosterone formed/mg protein per h) with 500 nM 11-dehydrocorticosterone in the presence of 200 microM NADPH, was 187.7 +/- 31.2. In situ hybridization studies of rat adrenal cortex and medulla using 35 S-labelled antisense 11 beta-HSD1 cRNA probe revealed specific localization of 11 beta-HSD1 mRNA expression predominantly to cells at the corticomedullary junction, most likely within the inner cortex. In contrast, 11 beta-HSD2 mRNA was more abundant in cortex versus medulla, and was more uniformly distributed over the adrenal gland. Negligible staining was detected using control sense probes. Ingestion of the 11 beta-HSD inhibitor, glycyrrhizic acid (> 100 mg/kg body weight per day for 4 days) resulted in significant inhibition of adrenal NADP-dependent (98.0 +/- 1.4 vs 42.5 +/- 0.4) and NAD-dependent (97.0 +/- 9.0 vs 73.2 +/- 6.7) 11 beta-dehydrogenase activity and 11-oxoreductase activity (187.7 +/- 31.2 vs 67.7 +/- 15.3). However, while levels of 11 beta-HSD1 mRNA were similarly reduced (0.85 +/- 0.07 vs 0.50 +/- 0.05 arbitrary units), those for 11 beta-HSD2 remained unchanged (0.44 +/- 0.03 vs 0.38 +/- 0.01). Levels of mRNA encoding the glucocorticoid-dependent enzyme phenylethanolamine N-methyltransferase which catalyses the conversion of noradrenaline to adrenaline, were also significantly reduced in those rats given glycyrrhizic acid (1.12 +/- 0.04 vs 0.78 +/- 0.04), while those for the glucocorticoid-independent enzyme tyrosine hydroxylase (1.9 kb), which catalyses the conversion of tyrosine to DOPA, were unchanged (0.64 +/- 0.04 vs 0.61 +/- 0.04). In conclusion, the rat adrenal gland expresses both 11 beta-HSD1 and 11 beta-HSD2 isoforms. 11 beta-HSD1 gene expression is localized to the adrenal cortico-medullary junction, where it is ideally placed to regulate the supply of cortex-derived corticosterone to the medullary chromaffin cells. This, together with our in vivo studies, suggests that 11 beta-HSD1 may play an important role with respect to adrenocorticosteroid regulation of adrenaline biosynthesis. The role of 11 beta-HSD2 in the adrenal remains to be elucidated.
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PMID:11 beta-Hydroxysteroid dehydrogenase in the rat adrenal. 893 87

A new form of the NAD(P)-dependent 3 alpha-hydroxysteroid dehydrogenases (3 alpha-HSDs), present in the gram-negative bacterium Comamonas testosteroni ATCC 11996, was isolated from a testosterone-induced bacterial extract and characterized. The enzyme (HSD 28) has a monomeric molecular mass of 28 kDa. It belongs to the protein superfamily of short-chain dehydrogenases/reductases (SDR) as established by N-terminal sequence analysis. Along with the 3 alpha-hydroxysteroid dehydrogenase and 3-oxo-reductase activities towards a variety of cis or trans fused A/B ring steroids, it also reduces several xenobiotic carbonyl compounds, including a metyrapone-based class of insecticides, to the respective alcohol metabolites. No dihydrodiol dehydrogenase activity towards trans- or cis-benzene-dihydrodiols could be detected, thus distinguishing it from the indomethacine-sensitive, mammalian liver type 3 alpha-HSDs. Subcellular fractionation revealed that the enzyme is localized in the cytoplasm of the bacterial cell. Proteins similar to the 3 alpha-HSD were detected and characterized from Comamonas testosteroni strain ATCC 17454 and from a commercially available steroid-induced extract of a patent Pseudomonas strain. The N-terminal amino acid sequence of the 3 alpha-HSD from the latter strain (HSD 29) is highly similar (94% identity over 15 residues) to a previously determined primary structure of a Pseudomonas species 3 alpha-HSD. However, no similarities could be detected between HSD 28 and a recently determined 3 alpha-HSD sequence from the ATCC 11996 Comamonas strain. The specific crossreaction of antibodies directed against mammalian liver type I 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD I) with the isolated 3 alpha-HSDs suggests the existence of a functionally and structurally related subgroup within the SDR superfamily. The broad substrate specificities of the characterized 3 alpha-HSD enzymes lead to the conclusion that they might participate in the intestinal bioactivation or inactivation of hormones, bile acids and xenobiotics since Comamonas testosteroni and related species are found in the intestinal tract of vertebrates including man.
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PMID:Characterization of a 3 alpha-hydroxysteroid dehydrogenase/carbonyl reductase from the gram-negative bacterium Comamonas testosteroni. 894 61

11 beta-hydroxysteroid dehydrogenase (11 beta-HSD) catalyzes the interconversion of cortisol (F) to inactive cortisone (E) in man (corticosterone (B) to 11-dehydrocorticosterone (A) in rodents) and plays a crucial role in regulating corticosteroid hormone action. Two isoforms of this enzyme have been characterized; a low affinity NADP(H)-dependent enzyme (11 beta-HSD1) and a high affinity NAD-dependent dehydrogenase (11 beta-HSD2). We have analysed the expression of 11 beta-HSD in the rodent and human adrenal gland and have investigated its role with respect to glucocorticoid-mediated catecholamine biosynthesis. Our studies indicated higher expression of 11 beta-HSD2 mRNA in male versus female intact mouse adrenal. Both 11 beta-HSD isoforms were detected in intact male rat adrenal homogenates. For the 11 beta-HSD1 isoform, NADPH-dependent oxo-reductase activity exceeded that of NADP-dependent dehydrogenase activity (188 versus 98 pmol/mg.protein.hr). In situ hybridisation studies indicated specific localisation of 11 beta-HSD1 mRNA to cells at the corticomedullary junction. 11 beta-HSD2 mRNA was uniformly distributed across the cortex and was low/absent in the medulla. Administration of glycyrrhizic acid in vivo (> 100 mg/kg for 4 days) resulted in inhibition of 11 beta-HSD1 mRNA and activity and a decrease in mRNA levels for the glucocorticoid-dependent enzyme, phenylethanolamine N-methyltransferase, whilst levels of the glucocorticoid-independent enzyme, tyrosine hydroxylase were unchanged. No 11 beta-HSD expression was observed in the rat phaeochromocytoma cell line, PC12 cells, nor in human normal adrenal gland or phaeochromocytoma specimens. There are marked species and sex differences in the expression of 11 beta-HSD isoforms within the adrenal. The role of 11 beta-HSD within the adrenal gland remains obscure, but at least in the rat, the expression of the reductase enzyme, 11 beta-HSD1, to the corticomedullary junction may serve to maintain high medullary glucocorticoid concentrations required for catecholamine biosynthesis.
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PMID:Adrenal 11 beta-hydroxysteroid dehydrogenase. 896 40


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