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

Glucocorticoid hormone action in target tissues is modulated by 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD), which interconverts active cortisol and corticosterone and their inert 11-keto metabolites, cortisone and 11-dehydrocorticosterone. Two different 11 beta-HSD isoforms exist: a low-affinity NADP-dependent dehydrogenase/oxoreductase (11 beta-HSD1) and a high-affinity NAD-dependent dehydrogenase (11 beta-HSD2). This brief review describes the expression and distribution of 11 beta-HSD isoforms in human placenta. In particular, it discusses the results of studies dealing with the expression of 11 beta-HSD activity in experimental models representative of the fetomaternal interface in the early gestation. The findings have implications in terms of protection of the fetus against corticosteroid toxicity and modulation of active glucocorticoid levels and their biological effects in early pregnancy.
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PMID:Expression of 11 beta-hydroxysteroid dehydrogenase in early pregnancy: implications in human trophoblast-endometrial interactions. 1040 76

11Beta-hydroxysterold dehydrogenase enzymes (11beta-HSD1, 11beta-HSD2) regulate access of adrenocorticosteroids to receptors. 11Beta-HSD2 is a dehydrogenase that protects mineralocorticoid receptors from circulating glucocorticoid hormones, 11beta-HSD1 is a reductase that promotes formation of active hormone in glucocorticoid-sensitive tissues. Here we investigate whether low or high sodium diets affect 11beta-HSD enzyme activities and mRNA expression in liver and kidney tissues. 11Beta-HSD activity was measured as dehydrogenation of 3H-corticosterone by microsomes in the presence of NAD or NADP. In situ hybridisation techniques were used to assess expression of 11beta-HSD1 mRNA (liver and kidney) and 11beta-HSD2 mRNA (kidney). Dietary sodium did not affect 11beta-HSD2 mRNA expression in collecting tubules of the medulla: 11beta-HSD1 mRNA in proximal tubules of the inner cortex/outer medulla was lower after a high sodium diet. 11Beta-HSD1 mRNA in liver was unaffected by treatment. Renal enzyme activity with NAD (11beta-HSD2 cofactor) was lower following a high sodium diet (P < 0.05). In the presence of NADP (11beta-HSD1 co-factor), neither renal nor hepatic activities were affected. Dietary sodium restriction appears to increase 11beta-HSD activity by a non-genomic mechanism; this should enhance aldosterone specificity for mineralocorticoid receptors. 11Beta-HSD1 mRNA expression varies independent of enzyme activity and is not clearly related to altered glucocorticoid activity.
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PMID:Regulation of 11beta-hydroxysteroid dehydrogenase enzymes by dietary sodium in the rat. 1071 25

We studied 11beta-hydroxysteroid dehydrogenase activities in the renal cell line LLC-PK1 and the effects of different steroids on them. Cortisol was oxidized in the presence of NAD as well as NADP, reflecting the presence of two different 11beta-HSD forms. Enzyme kinetics for cortisol 11beta-oxidation were: Vmax = 5.9 pmol/(min x mg), Km = 0.2 microM with NAD, and Vmax = 4.5 pmol/(min x mg), Km = 1.0 microM with NADP. Interestingly, no reverse reaction was observed when using cortisone and NADPH as substrate and cosubstrate, respectively. Exposure of cells to a variety of steroids had different effects on cortisol 11beta-oxidation rates with NADP compared to those with NAD. Dexamethasone initially (3-60 min of exposure) decreased the NAD-dependent 11beta-HSD activity to about 60%, which was no longer evident after 2 h or longer. By contrast, the 11beta-oxidation of cortisol with NADP increased by dexamethasone treatment of the cells, after a lagtime of about 2 h, and this effect was still evident after 32 h. The increase of 11beta-HSD activity with NADP by dexamethasone was concentration dependent (estimated EC50:125 nM). The antiglucocorticoid RU486 did not antagonize dexamethasone induction. Exposure of cells for 19 h to 1 microM cortisol, cortisone, progesterone, and estradiol also increased NADP-dependent cortisol 11beta-oxidation, but had no effect on the NAD-dependent 11beta-HSD activity. Immunoblot and reverse transcriptase-polymerase chain reaction experiments failed to detect any 11beta-HSD 1 protein or mRNA in these cells. Our observations suggest that in LLC-PK1 cells, two forms of 11beta-HSD exist, which differ in cosubstrate dependency, kinetics for cortisol, and modulation by steroids. Whereas the NAD-dependent form seems identical to renal 11beta-HSD 2, the NADP-dependent 11beta-HSD possibly resembles an as yet unknown third isoform.
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PMID:Characterization of 11beta-hydroxysteroid dehydrogenase activities in the renal cell line LLC-PK1: evidence for a third isoform? 1078 27

The bovine 11beta-hydroxysteroid dehydrogenase type 2 enzyme (11beta-HSD-2) cDNA was cloned from three overlapping PCR fragments using primers based on the human and ovine 11beta-HSD-2 cDNA sequences. Both cDNA ends were obtained by a modified RACE (Rapid Amplification of cDNA Ends) method. The bovine 11beta-HSD-2 cDNA is 1878 bp long, excluding the poly(A) tail. It consists of a 5'-untranslated region of 133 bp, an open reading frame of 1215 bp and a 3'-untranslated region of 530 bp. Bovine 11beta-HSD-2 cDNA is highly homologous to that of the sheep (92%) and less related to the human (67%), rabbit (65%), rat (52%) and mouse (45%) cDNA. The predicted bovine 11beta-HSD-2 protein contains 404 amino acid residues with a calculated mol wt of 43,985. It is homologous to the sheep (98%) and human (88%) protein, and less related to that of the rabbit (76%), rat (80%) and mouse (77%). The cloned 11beta-HSD-2 cDNA was transfected into CHOP cells and the enzymatic characteristics determined. The enzyme functions primarily as an oxidase, uses NAD(+) and is more active with corticosterone as a substrate than with cortisol or dexamethasone. It is expressed in high concentrations in kidney, adrenal and colon, and in small concentrations in liver, heart and lung. In conclusion, the 11beta-HSD-2 enzyme of cattle is very similar to that of other species in its structure and enzymatic characteristics.
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PMID:Cloning and expression of the bovine 11beta-hydroxysteroid dehydrogenase type-2. 1082 12

This study examined the enzymatic characteristics and steroid regulation of the glucocorticoid-metabolizing enzyme 11beta-hydroxysteroid dehydrogenase (11beta-HSD) in the human breast cancer cell line T-47D. In cell homogenates, exogenous NAD significantly increased the conversion of corticosterone to 11-dehydrocorticosterone, while NADP was ineffective. There was no conversion of 11-dehydrocorticosterone to corticosterone either with NADH or NADPH demonstrating the lack of reductase activity. In keeping with these results, RT-PCR analysis indicated a mRNA for 11beta-HSD2 in T-47D cells, while 11beta-HSD1 mRNA levels were undetectable. In T-47D cells treated for 24 h with medroxyprogesterone acetate (MPA), 11beta-HSD catalytic activity was elevated 11-fold, while estrone (E(1)), estradiol (E(2)) and the synthetic glucocorticoid dexamethasone (DEX) were ineffective. The antiprogestin mifepristone (RU486) acted as a pure antagonist of the progestin-enhanced 11beta-HSD activity, but did not exert any agonistic effects of its own. In addition, RT-PCR analysis demonstrated that MPA was a potent inducer of 11beta-HSD2 gene expression, increasing the steady-state levels of 11beta-HSD2 mRNA. Taken together, these results demonstrate that 11beta-HSD2 is the 11beta-HSD isoform expressed by T-47D cells under steady-state conditions and suggest the existence of a previously undocumented mechanism of action of progestins in breast cancer cells.
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PMID:Progestin regulation of 11beta-hydroxysteroid dehydrogenase expression in T-47D human breast cancer cells. 1082 13

17beta-Hydroxysteroid dehydrogenases (17beta-HSDs) regulate androgen and estrogen concentrations in mammals. By 1995, four distinct enzymes with 17beta-HSD activity had been identified--17beta-HSD-types 1 and 3, which, in vivo, are NADPH-dependent reductases; and 17beta-HSD-types 2 and 4, which, in vivo, are NAD(+)-dependent oxidases. Since then, six additional enzymes with 17beta-HSD activity have been isolated from mammals. With the exception of 17beta-HSD-type 5, which belongs to the aldoketo-reductase (AKR) family, these 17beta-HSDs belong to the short chain dehydrogenase/reductase (SDR) family. Several 17beta-HSDs appear to be examples of convergent evolution. That is, 17beta-HSD activity arose several times from different ancestors. Some 17beta-HSDs share a common ancestor with retinoid oxido-reductases and have retinol dehydrogenase activity. 17beta-HSD-types 2, 6 and 9 appear to have diverged from ancestral retinoid dehydrogenases early in the evolution of deuterostomes during the Cambrian, about 540 million years ago. This coincided with the origin of nuclear receptors for androgens and estrogens suggesting that expression of 17beta-HSDs had an important role in the early evolution of the physiological response to androgens and estrogens.
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PMID:Evolution of 17beta-hydroxysteroid dehydrogenases and their role in androgen, estrogen and retinoid action. 1116 32

Interconversion of active and inactive glucocorticoids, e.g. cortisol (F) and cortisone (E) is catalysed by 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD) which exists as two isoforms. We have used human placental bed biopsies and an in-vitro cytotrophoblast cell culture system to examine the expression and activity of the 11 beta-HSD isoforms along with that of the glucocorticoid and mineralocorticoid receptors (GR and MR). Immunohistochemistry localized 11 beta-HSD1 to decidualized stromal cells and 11 beta-HSD2 to villous cytotrophoblast, syncytiotrophoblasts and trophoblast cells invading the placental bed and maternal vasculature. In primary cultures of human cytotrophoblast, 11 beta-HSD2, GR and MR mRNA were expressed. Low levels of 11 beta-HSD1 mRNA were noted in these cultured cells, but could be explained on the basis of contaminating, vimentin-positive decidual stromal cells (< or =5%). Enzyme activity studies confirmed the presence of a high-affinity, NAD-dependent dehydrogenase activity (K(m) 137 nmol/l and V(max) 128 pmol E/h/mg protein), indicative of the 11 beta-HSD2 isoform. No reductase activity was observed. The presence of functional MR and GR was determined using Scatchard analyses of dexamethasone and aldosterone binding (MR K(d) 1.4 nmol/l B(max) 3.0; GR K(d) 6.6 nmol/l B(max) 16.2 fmol/ng protein). The expression of 11 beta-HSD1 in maternal decidua and 11 beta-HSD2 in adjacent trophoblast suggests an important role for glucocorticoids in determining trophoblast invasion. The presence of the MR within trophoblast indicates that some of the effects of cortisol could be MR- rather than GR-mediated.
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PMID:Expression of 11 beta-hydroxysteroid dehydrogenase isozymes and corticosteroid hormone receptors in primary cultures of human trophoblast and placental bed biopsies. 1127 98

Human type I 3beta-hydroxysteroid dehydrogenase/isomerase (3beta-HSD/isomerase) is an integral membrane protein of human placental trophoblast and of insect Sf9 cells transfected with recombinant baculovirus containing the cDNA encoding the enzyme. Purified native or wild-type enzyme remains in solution only in the presence of detergent that may prevent crystallization. The membrane-spanning domain (residues 283-310) of the enzyme protein was deleted in the cDNA using PCR-based mutagenesis. The modified enzyme was expressed by baculovirus in the cytosol instead of in the microsomes and mitochondria of the Sf9 cells. The cytosolic form of 3beta-HSD/isomerase was purified using affinity chromatography with Cibacron Blue 1000. The NAD(+) and NaCl used to elute the enzyme were removed by size-exclusion centrifugation. Hydroxylapatite chromatography yielded a 26-fold purification of the enzyme. SDS-PAGE revealed a single protein band for the purified cytosolic enzyme (monomeric molecular mass 38.8 kDa) that migrated just below the wild-type enzyme (monomeric molecular mass 42.0 kDa). Michaelis-Menten constants measured for 3beta-HSD substrate (dehydroepiandrosterone) utilization by the purified cytosolic enzyme (K(m)=4.5 microM, V(max)=53 nmol/min per mg) and the pure wild-type enzyme (K(m)=3.7 microM, V(max)=43 nmol/min per mg), for isomerase substrate (5-androstene-3,17-dione) conversion by the purified cytosolic (K(m)=25 microM, V(max)=576 nmol/min per mg) and wild-type (K(m)=28 microM, V(max)=598 nmol/min per mg) enzymes, and for NAD(+) reduction by the 3beta-HSD activities of the cytosolic (K(m)=35 microM, V(max)=51 nmol/min per mg) and wild-type (K(m)=34 microM, V(max)=46 nmol/min per mg) enzymes are nearly identical. The isomerase activity of the cytosolic enzyme requires allosteric activation by NADH (K(m)=4.6 microM, V(max)=538 nmol/min per mg) just like the wild-type enzyme (K(m)=4.6 microM, V(max)=536 nmol/min per mg). Crystals of the purified, cytosolic enzyme protein have been obtained. The inability to crystallize the detergent-solubilized, wild-type microsomal enzyme has been overcome by engineering a cytosolic form of this protein. Determining the tertiary structure of 3beta-HSD/isomerase will clarify the mechanistic roles of potentially critical amino acids (His(261), Tyr(253)) that have been identified in the primary structure.
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PMID:The engineered, cytosolic form of human type I 3beta-hydroxysteroid dehydrogenase/isomerase: purification, characterization and crystallization. 1146 78

Two isoforms of the enzyme 11beta-hydroxysteroid dehydrogenase (11beta-HSD) interconvert the active glucocorticoid, cortisol, and inactive cortisone. 11beta-HSD1 is believed to act in vivo predominantly as an oxo-reductase using NADP(H) as a cofactor to generate cortisol. In contrast, 11beta-HSD2 acts exclusively as an NAD-dependent dehydrogenase inactivating cortisol to cortisone, thereby protecting the mineralocorticoid receptor from occupation by cortisol. In peripheral tissues, both enzymes serve to control the availability of cortisol to bind to the corticosteroid receptors. Defective expression of 11beta-HSD2 is implicated in patients with hypertension and intra-uterine growth retardation, while 11beta-HSD1 appears to be intricately involved in the conditions of apparent cortisone reductase deficiency, insulin resistance and visceral obesity. The ability of peripheral tissues to regulate corticosteroid concentrations through 11beta-HSD isozymes is established as an important mechanism in the pathogenesis of diverse human diseases. Modulation of enzyme activity may offer a novel therapeutic approach to treating human disease while circumventing the consequences of systemic glucocorticoid excess or deficiency.
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PMID:Cortisol metabolism and the role of 11beta-hydroxysteroid dehydrogenase. 1146 11

The 11beta-hydroxysteroid dehydrogenase types 1 and 2 enzymes (11beta-HSD1 and 11beta-HSD2), modulate glucocorticoid occupation of the mineralocorticoid and glucocorticoid receptors by interconverting corticosterone and cortisol to the inactive metabolites 11-dehydrocorticosterone and cortisone within the target cells. The NAD(+)-dependent 11-HSD 2 in the kidney inactivates corticosterone and cortisol, allowing aldosterone, which is not metabolized, access to the receptor. Studies of the kinetics of 11-HSD 2 activity in the rat kidney have produced inconsistent results. Western blots done in the absence of the reducing agent beta-mercaptoethanol showed two bands with approximate MW of 40 and 80 kDa. When beta-mercaptoethanol was used, only the 40 kDa was detected, indicating that under non-denaturing conditions a significant proportion of the 11beta-HSD 2 exists as a dimer. NAD(+)-dependent conversion of 3H-corticosterone by 20 microg of microsomal protein increased approximately 10 fold with the addition of 5 mM DTT concentration. NADP(+)-dependent activity with 20 microg of microsomal protein was very low and did not change significantly when using DTT. In the presence of DTT, the predominant 11-HSD activity in the rat kidney is NAD(+)-dependent with a K(m) of 15.1 nM, similar to that of the cloned and expressed enzyme. These data suggest that dimerization and subsequent enzyme inactivation occur when protocols promoting oxidation of this protein are used.
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PMID:The 11beta hydroxysteroid dehydrogenase 2 exists as an inactive dimer. 1157 24


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