UNIPROT:Q7LGC8 - FACTA Search

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

Glucocorticoids have an essential role in skeletal development and function but are detrimental in excess. In several tissues, glucocorticoid action is dependent upon the expression of 11beta-hydroxysteroid dehydrogenase (11beta-HSD) isozymes, which interconvert active cortisol (F) and inactive cortisone (E). We previously demonstrated the expression of 11beta-HSD isozymes in human osteosarcoma cell lines, osteoblast cultures, and fetal bone. We now characterize 11beta-HSD expression in adult human bone using specific antihuman 11beta-HSD antibodies, riboprobes, and enzyme activity studies. In addition, the effect of 11beta-HSD on bone metabolism in vivo was assessed using the 11beta-HSD inhibitor carbenoxolone in eight normal male volunteers. In fresh normal human bone tissue, both 11beta-dehydrogenase (cortisol-to-cortisone conversion) and reductase (cortisone-to-cortisol conversion) activities were demonstrated. There was considerable interindividual variation in the dehydrogenase, but not reductase, activity. In bone homogenates, activity was NADP-dependent with a K(m) for F of 4.8 +/- 1.2 micromol/L, suggesting the presence of 11beta-HSD1. This was confirmed by reverse transcription-polymerase chain reaction (RT-PCR) analysis. Immunohistochemistry and in situ hybridization studies demonstrated 11beta-HSD1 isozyme expression in cells of the osteoblast lineage and in osteoclasts. The 11beta-HSD2 isozyme was expressed, but only in osteoblasts and at a low level. Ingestion of 300 mg of carbenoxolone by eight normal volunteers for 7 days resulted in a significant decrease in the bone resorption markers, pyridinoline (Pyr) and deoxypyridinoline (DPyr) (change in urinary Pyr/creatinine -1.55 +/- 0.55 [mean +/- SE], for DPyr/creatinine -0. 4 +/- 0.14 nmol/mmol; p < 0.05 for both), with no overall change in the bone formation markers C- and N-terminal propeptides of type I collagen (PICP and PINP). These data suggest that local tissue metabolism of glucocorticoids is likely to be important in determining the sensitivity of both osteoblasts and osteoclasts to glucocorticoids. In particular, variation in 11beta-HSD isozyme expression and activity may explain individual variation in susceptibility to glucocorticoid-induced osteoporosis.
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PMID:Expression and functional consequences of 11beta-hydroxysteroid dehydrogenase activity in human bone. 1096 48

In androgen-sensitive target tissues, 3 alpha-hydroxysteroid dehydrogenase regulates the androgen receptor (AR) activity by catalyzing the inactivation of 5 alpha-dihydrotestosterone (the most natural potent androgen) to 5 alpha-androstane-3 alpha,17 beta-diol. In this report, the crystallization of a human prostatic type 3 3 alpha-hydroxysteroid dehydrogenase, a member of the aldo-keto reductase superfamily, is described. Two different crystal forms of the complex between the human type 3 3 alpha-HSD, NADP(+) and testosterone have been obtained using PEG as precipitant. Crystal form I, which diffracts to 1.6 A, belongs to the monoclinic space group P2(1), with unit-cell parameters a = 55.07, b = 87.15, c = 76.88 A, beta = 107.37 degrees and two subunits in the asymmetric unit. A complete data set has been collected at 1.8 A. Crystal form II, which diffracts to 2.6 A, belongs to the rhombohedral space group R32, with unit-cell parameters a = b = 143.59, c = 205.86 A, alpha = beta = 90, gamma = 120 degrees and two subunits in the asymmetric unit.
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PMID:Crystallization and preliminary X-ray crystallographic analysis of the human type 3 3 alpha-hydroxysteroid dehydrogenase at 1.8 A resolution. 1126 91

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

An important determinant of the potency of steroid hormones is the presence of activating and inactivating enzymes in target cells. The 11 beta-hydroxysteroid dehydrogenase type 1 and type 2 enzymes (11 beta HSD1 and 11 beta HSD2) modulate glucocorticoid action and may be important in regulating cellular growth. In the present study we examined 11 beta-hydroxysteroid dehydrogenase in Ishikawa endometrial cancer cells to see if modulation of enzyme activity could potentiate the antiproliferative effects of glucocorticoids. Ishikawa cells contain an NAD dependent enzyme migrating at 41 kDa on Western blots, consistent with the presence of the glucocorticoid-inactivating enzyme 11 beta HSD2, while the NADP dependent 11 beta HSD1 is barely detectable. Given that glucocorticoids decrease cellular proliferation we asked whether inhibition of 11 beta HSD2 could further enhance this effect. Cultivation of cells in the presence of 1 microM cortisol resulted in an elevation of 11 beta HSD2 and this was associated with a decrease in cell number. Enzyme activity and cell proliferation showed a biphasic response to the synthetic anti-progestin and anti-glucocorticoid RU38486, with < or =10 nM exerting agonistic effects and > or =100 nM producing antagonist effects in the presence of 1 microM cortisol. Inhibition of 11 beta HSD2 activity by glycyrrhetinic acid did not enhance the anti-proliferative effects of 1 microM cortisol, but the inhibitor showed significant antiproliferative activity in the absence of added glucocorticoid, consistent with protection of the low levels of glucocorticoids present in culture medium. Interestingly, the commonly used 11 beta HSD inhibitor, Carbenoxolone, did not block 11 beta HSD2 activity in whole Ishikawa cells, and there was no effect on cell proliferation, however, complete inhibition of 11 beta HSD2 was achieved in cellular homogenates suggesting that a barrier exists to entry of the inhibitor into intact cells. This study suggests that inhibition of 11 beta HSD2 activity can enhance the antiproliferative effects of low, but not high concentrations of glucocorticoids, and that beneficial effects may be attained in vivo at the nadir of diurnal glucocorticoid levels.
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PMID:Modulation of 11 beta-hydroxysteroid dehydrogenase type 2 activity in Ishikawa cells is associated with changes in cellular proliferation. 1160 36

Progesterone plays an essential role in the maintenance of the pregnancy of most mammals. 20alpha-Hydroxysteroid dehydrogenase (20alpha-HSD) catalyses the inactivation of progesterone into its inactive form, 20alpha-hydroxyprogesterone, and could thus be involved in progesterone withdrawal and in the control of gestation. In this report, the purification and crystallization of recombinant human and rabbit 20alpha-HSDs (h20alpha-HSD and rb20alpha-HSD) are described, two highly homologous enzymes possessing, in addition to their common 20alpha-HSD activity, different activities and substrate specificities. Complete diffraction data sets have been collected for crystals of rb20alpha-HSD in complex with NADP(H) and with either dihydrotestosterone (1.8 A), progesterone (1.7 A) or 4-androstenedione (1.8 A). All these crystals belong to the monoclinic space group P2(1). A partial data set has also been collected for a crystal of h20alpha-HSD (P2(1)2(1)2(1)) in complex with NADP(H) and progesterone.
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PMID:Expression, crystallization and preliminary X-ray analysis of human and rabbit 20alpha-hydroxysteroid dehydrogenases in complex with NADP(H) and various steroid substrates. 1175 91

17beta-Hydroxysteroid dehydrogenases (17beta-HSDs) catalyze the last step in the biosynthesis of all androgens and estrogens, thus playing a pivotal role in sex-hormone metabolism. Human 17beta-HSD type 5 (17beta-HSD5) catalyzes hydride transfer at the 17beta-hydroxy position, but possesses high sequence homology to 3alpha-hydroxysteroid dehydrogenases (3alpha-HSD). Two crystal forms of 17beta-HSD5 in an enzyme-testosterone-NADP ternary complex have been obtained under different crystallization conditions. A form I crystal obtained at pH 8.5 diffracted to 1.32 A. It belonged to space group P2(1), with unit-cell parameters a = 47.41, b = 77.16, c = 48.67 A, beta = 116.32 degrees. Form II crystals obtained at pH 6.5 diffracted to 2.0 A and belonged to space group P6(3), with unit-cell parameters a = b = 110.58, c = 56.89 A.
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PMID:Purification, crystallization and preliminary X-ray diffraction results of human 17beta-hydroxysteroid dehydrogenase type 5. 1203 13

Rat liver 3alpha-hydroxysteroid dehydrogenase (3alpha-HSD or AKR1C9), a member of the aldo-keto reductase (AKR) superfamily, plays a pivotal role in the inactivation of circulating steroid hormones. It is the most thoroughly characterized HSD of the AKR superfamily and can be used as a template for structure-function studies in other AKR members such as rodent and human 3alpha-, 17beta- and 20alpha-HSDs. Based on the crystal structure of the E.NADP(+) testosterone ternary complex, there are ten residues that line the testosterone binding cavity: T24, L54, Y55, H117, F118, F129, T226, W227, N306 and Y310. Each residue in the cavity, except for the catalytic residues Y55 and H117, was systematically mutated to alanine to determine the role of the individual residues in steroid recognition. Binding data and kinetic parameters (K(d), k(cat), K(m) and k(cat)/K(m)) of the homogeneous mutants were compared with that of the wild type (WT) enzyme. Titration of the intrinsic tryptophan fluorescence with NADPH demonstrated that cofactor binding was unaltered. However, binding of the steroid hormones testosterone and progesterone to the E.NADPH binary complex was affected to varying degrees. The largest effects on K(d) were an 8-fold decrease in affinity for testosterone and a 50-fold decrease in affinity for progesterone. The mutants bound both hormones in the same rank-order except for W227A, where the binding of progesterone was more adversely affected. A series of 3alpha-hydroxysteroid substrates (A/B trans- and cis-ring fused C(19) and C(21) steroids) were used to determine the ability of each mutant to catalyze steroid turnover. The alanine mutants that retained k(cat)/K(m) values similar to WT were those in which alanine substituted short polar residues such as T24A and T226A. The mutants with the lowest catalytic efficiencies were those in which alanine substituted aromatic residues such as W227A and F129A. The loss in catalytic efficiency was due to large changes in k(cat) (up to 1000-fold), but not K(m). Molecular modeling of the alanine mutants showed that changes in the reaction trajectory defined by the angles and distances by groups that participate in catalysis correlate with changes in k(cat). These results highlight the importance of steroid binding site residues in dictating the proper orientation of substrates to achieve high catalytic turnover while having minimal effects on hormone affinity.
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PMID:Steroid-binding site residues dictate optimal substrate positioning in rat 3alpha-hydroxysteroid dehydrogenase (3alpha-HSD or AKR1C9). 1260 26

Human 20alpha-hydroxysteroid dehydrogenase (h20alpha-HSD; AKR1C1) catalyzes the transformation of progesterone (Prog) into 20alpha-hydroxy-progesterone (20alpha-OHProg). Although h20alpha-HSD shares 98% sequence identity with human type 3 3alpha-HSD (h3alpha-HSD3, AKR1C2), these two enzymes differ greatly in their activities. In order to explain these differences, we have solved the crystal structure of h20alpha-HSD in a ternary complex with NADP(+) and 20alpha-OHProg at 1.59A resolution. The steroid is stabilized by numerous hydrophobic interactions and a hydrogen bond between its O20 and the N(epsilon ) atom of His222. This new interaction prevents the formation of a hydrogen bond with the cofactor, as seen in h3alpha-HSD3 ternary complexes. By combining structural, direct mutagenesis and kinetic studies, we found that the H(222)I substitution decreases the K(m) value for the cofactor 95-fold. With these results, we hypothesize that the rotation of the lateral chain of His222 could be a mediating step between the transformation of Prog and the release of the cofactor. Moreover, crystal structure analysis and direct mutagenesis experiments lead us to identify a new residue involved in the binding of Prog. Indeed, the R(304)L substitution leads to a 65-fold decrease in the K(m) value for Prog reduction. We thus propose that Prog is maintained in a new steroid-binding site composed mainly of residues found in the carboxy-terminal region of the protein.
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PMID:Human 20alpha-hydroxysteroid dehydrogenase: crystallographic and site-directed mutagenesis studies lead to the identification of an alternative binding site for C21-steroids. 1289 31

Two isoforms of 11beta-hydroxysteroid dehydrogenase (11beta-HSD) interconvert the active glucocorticoid, cortisol, and inactive cortisone. 11beta-HSD1 acts predominantly as an oxo-reductase in vivo using NADP(H) as a cofactor to generate cortisol. In contrast, 11beta-HSD2 is a 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 corticosteroid receptors. 11beta-HSD2 protects the mineralocorticoid receptor from cortisol excess; mutations in the HSD11B2 gene explain an inherited form of hypertension, the syndrome of 'apparent mineralocorticoid excess', in which 'Cushing's disease of the kidney' results in cortisol-mediated mineralocorticoid excess. Inhibition of 11beta-HSD2 explains the mineralocorticoid excess state seen following liquorice ingestion and more subtle defects in enzyme expression might be involved in the pathogenesis of 'essential' hypertension. 11beta-HSD1 by generating cortisol in an autocrine fashion facilitates glucocorticoid receptor-mediated action in key peripheral tIssues including liver, adipose tissue, bone and the eye. 'Cushing's disease of the omentum' has been proposed as an underlying mechanism in the pathogenesis of central obesity and raises the exciting possibility of selective 11beta-HSD1 inhibition as a novel therapy for patients with the metabolic syndrome. 'Pre-receptor' metabolism of cortisol via 11beta-HSD isozymes is an important facet of corticosteroid hormone action. Aberrant expression of these isozymes is involved in the pathogenesis of diverse human diseases including hypertension, insulin resistance and obesity. Modulation of enzyme activity may offer a future therapeutic approach to treating these diseases whilst circumventing the endocrine consequences of glucocorticoid excess or deficiency.
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PMID:Tissue-specific Cushing's syndrome, 11beta-hydroxysteroid dehydrogenases and the redefinition of corticosteroid hormone action. 1294 16

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