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)

11 Beta-hydroxysteroid dehydrogenase (11 beta-HSD) catalyses the interconversion of active corticosterone and inert 11-dehydrocorticosterone. The recently discovered type 2 isozyme (11 beta-HSD-2) is a high affinity, NAD-dependent, exclusive 11 beta-dehydrogenase, which rapidly inactivates glucocorticoids. Thus the enzyme generates aldosterone-selectivity for intrinsically non-selective mineralocorticoid receptors in vivo as well as excluding glucocorticoids from glucocorticoid receptors, the latter being particularly important during development. Aldosterone exerts selective central effects upon salt appetite and blood pressure whilst glucocorticoids have potent effects upon postnatal neurogenesis and brain remodelling. We examined 11 beta-HSD-2 expression during postnatal ontogeny and in adult rat brain. High 11 beta-HSD-2 mRNA expression was found specifically in the postnatal thalamus and the external granule cell layer of the cerebellum. Expression peaked at the end of the first postnatal week and declined rapidly thereafter. Postnatal brain showed considerable activity of high affinity 11 beta-HSD-2 which paralleled expression of 11 beta-HSD-2 messenger ribonucleic acid (mRNA). Adult brain showed high 11 beta-HSD-2 mRNA expression limited to the subcommissural organ, with lower expression in the ventromedial nucleus of the hypothalamus, amygdala, locus coeruleus and nucleus tractus solitarius. These discrete areas are compatible with proposed selective central actions of aldosterone on blood pressure (subcommissural organ, nucleus tractus solitarius) and salt appetite (ventromedial nucleus, amygdala). In contrast, early postnatal 11 beta-HSD-2 coincides with glucocorticoid receptor rather than mineralocorticoid receptor expression, and areas of expression are among the regions where glucocorticoids have been demonstrated to have profound effects upon neuronal division, growth and maturation.
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PMID:11 Beta-hydroxysteroid dehydrogenase type 2 in the postnatal and adult rat brain. 979 98

The type 2 isozyme of 11beta-hydroxysteroid dehydrogenase (11beta-HSD2) is responsible for inactivating physiologically active glucocorticoids to their inert metabolites. This is the predominant 11beta-HSD isozyme in the human placenta, where it is believed to protect the fetus from high levels of maternal cortisol. Given the similarity in placental structure between the human and the guinea pig (hemomonochorial), we have evaluated the potential of utilizing the guinea pig as a model to study the function and regulation of placental 11beta-HSD2 in fetal development. In this study, we characterized the intrinsic properties of 11beta-HSD in the guinea pig placenta during late pregnancy. The 11beta-HSD activity in the placenta was characteristic of 11beta-HSD2 in that it possessed only dehydrogenase activity that was NAD-dependent and had a high affinity for cortisol (Km = 134 nM). Moreover, the level of the 11beta-HSD2-like activity decreased significantly at term. To verify the expression of 11beta-HSD2 gene and to determine whether corresponding changes in 11beta-HSD2 mRNA occur at term, we also cloned the cDNA encoding guinea pig placental 11beta-HSD2. The deduced guinea pig 11beta-HSD2 enzyme contains 395 amino acids and shares over 80% sequence identity with other mammalian 11beta-HSD2 proteins. Northern blot analyses demonstrated the presence of the mRNA for 11beta-HSD2 but not that for 11beta-HSD1. Moreover, the level of 11beta-HSD2 mRNA decreased significantly at term. The parallel decrease in levels of 11beta-HSD2 activity and mRNA at term is consistent with, and provides a plausible molecular basis for, the previously reported increase in the rate of placental transfer of cortisol between mother and fetus at that time. In conclusion, the present study demonstrates that the guinea pig resembles the human in that 11beta-HSD2 is the predominant, if not exclusive, isozyme expressed in the placenta. Therefore, the guinea pig appears to represent a suitable model in which to study the role of placental 11beta-HSD2 in human fetal development.
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PMID:11beta-hydroxysteroid dehydrogenase type 2 is the predominant isozyme in the guinea pig placenta: decreases in messenger ribonucleic acid and activity at term. 982 81

Ovarian follicles were collected from perch belonging to the prespawning (vitellogenic) stage and incubated in vitro for 5 h in the absence (control) and presence of 3, 5, 3'-triiodothyronine (T3). Addition of increasing concentrations of T3 from 12.5 to 100 ng/ml caused a linear increase of 3beta-hydroxysteroid dehydrogenase/delta5-delta4-isomerase (3 beta-HSD) activity to 50 ng and then it leveled off indicating a saturation of enzyme activity with 50 ng T3. T3 stimulation of 3beta-HSD activity could be blocked by cycloheximide indicating the involvement of T3-induced protein (TIP) isolated and purified earlier from this laboratory. Addition of fish TIP purified from perch ovarian follicle (fTIP) or rat granulosa cell TIP to ovarian follicular incubation at a dose of 5 microg/ml significantly increased (P < 0.01) 3beta-HSD activity. To observe whether TIP acts directly on the enzyme or not, 3beta-HSD from perch ovarian follicle was purified to homogeneity by the following steps: (i) Sephadex G 75 gel filtration, (ii) DEAE-Sephacel chromatography, and (iii) NAD-affinity column chromatography. Purified 3beta-HSD gave a clear single band on an SDS gel and its molecular weight is 45 kDa. Addition of fTIP to an assay mixture containing purified 3beta-HSD resulted in a fourfold increase of the enzyme activity. fTIP alone did not show enzyme activity when incubated with the radiolabeled substrate. Addition of T3 (50 ng) to the 3beta-HSD assay mixture had no effect on the enzyme activity. Determination of Vmax and Km of the purified enzyme in the absence (control) and presence of fTIP demonstrated a considerable increase of 3beta-HSD affinity and rate of enzyme reaction.
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PMID:Thyroid hormone regulation of perch ovarian 3beta-hydroxysteroid dehydrogenase/delta5-delta4-isomerase activity: involvement of a 52-kDa protein. 1008 23

During pregnancy excess corticosteroid exposure can disturb the normal pattern of growth and differentiation of the primate fetus. This is normally prevented by the action of 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD), which converts cortisol to its biologically inactive 11-oxo form, thereby ensuring that little or no cortisol is transferred to the fetus. During implantation, extravillous trophoblasts breech uterine vessels that are embedded in a decidual cell matrix. Through this invasive process the embryo gains requisite access to the maternal blood supply, while risking exposure to high circulating glucocorticoid levels. Thus, the expression of 11 beta-HSD by the decidual cell layer may be essential in regulating cortisol exposure of the developing embryo prior to placentation. In order to investigate the potential contribution of decidual cells to glucocorticoid metabolism, we evaluated the expression of both known 11 beta-HSD isoforms, 11 beta-HSD1, whose catalytic activity is NADP(+)-dependent, and NAD(+)-dependent 11 beta-HSD2, during decidualization of monolayers of human endometrial stromal cells. The differential actions of ovarian steroids on human endometrium are simulated in this in vitro model. Thus, progestins induce the expression of several decidualization markers in the cultured stromal cells, and consistent with its priming action in vivo, estradiol augments this expression. The results of our studies established a link between in vitro decidualization and enhanced glucocorticoid metabolizing capacity. Accordingly, the catalytic activities of both 11 beta-HSD isoforms were enhanced by incubation of the precursor stromal cells with medroxyprogesterone acetate, and further enhanced by estradiol, despite a lack of response to estradiol alone. This differential response to estradiol and progestin was reflected in parallel changes in steady state levels of 11 beta-HSD1 messenger RNA. The role of glucocorticoid metabolizing activity of the decidual cell is discussed in terms of its implications in determining the exposure of the implanting embryo to biologically active glucocorticoids.
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PMID:Human endometrial decidual cell-associated 11 beta-hydroxysteroid dehydrogenase expression: its potential role in implantation. 1008 76

In mammalian tissues, at least two isozymes of 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD) catalyze the interconversion of hormonally active C11-hydroxylated corticosteroids (cortisol, corticosterone) and their inactive C11-keto metabolites (cortisone, 11-dehydrocorticosterone). The type 1 and type 2 11 beta-HSD isozymes share only 14% homology and are separate gene products with different physiological roles, regulation, and tissue distribution. 11 beta-HSD2 is a high affinity NAD-dependent dehydrogenase that protects the mineralocorticoid receptor from glucocorticoid excess; mutations in the HSD11B2 gene explain an inherited form of hypertension, the syndrome of apparent mineralocorticoid excess in which cortisol acts as a potent mineralocorticoid. By contrast, 11 beta-HSD1 acts predominantly as a reductase in vivo, facilitating glucocorticoid hormone action in key target tissues such as liver and adipose tissue. Over the 10 years, 11 beta-HSD has progressed from an enzyme merely involved in the peripheral metabolism of cortisol to a crucial pre-receptor signaling pathway in the analysis of corticosteroid hormone action. This review details the enzymology, molecular biology, distribution, regulation, and function of the 11 beta-HSD isozymes and highlights the clinical consequences of altered enzyme expression.
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PMID:11 beta-Hydroxysteroid dehydrogenase. 1023 52

Studies in vitro and in vivo have shown that corticosteroids play an important role in bone physiology and pathophysiology. It is now established that corticosteroid hormone action is regulated, in part, at the pre-receptor level through the expression of isozymes of 11beta-hydroxysteroid dehydrogenase (11beta-HSD), which are responsible for the interconversion of hormonally active cortisol to cortisone. In this report we demonstrate 11beta-HSD activity in human osteoblast (OB) cells. Osteosarcoma-derived OB cell lines TE-85, MG-63 and SaOS-2 and fibrosarcoma Hs913T cells express the type 2 isoform of 11beta-HSD, as determined by reverse transcription polymerase chain reaction (RT-PCR) and specific enzyme assays. Enzyme activity was shown to be strictly NAD dependent with a Km of approximately 71 nM; 11beta-HSD type 1 mRNA expression and enzyme activity were not detected. All four cell lines expressed mRNA for the glucocorticoid receptor (GR) and mineralocorticoid receptor, but specific binding was only detectable with radiolabelled dexamethasone (Kd=10 nM) and not aldosterone. MG-63 cells had two to three times more GR than the other OB cells, which correlated with the higher levels of 11beta-HSD 2 activity in these cells. In contrast to the osteosarcoma cell studies, RT-PCR analysis of primary cultures of human OB cells revealed the presence of mRNA for 11beta-HSD 1 as well as 11beta-HSD 2. However, enzyme activity in these cells remained predominantly oxidative, i.e. inactivation of cortisol to cortisone (147 pmol/h per mg protein at 500 nM cortisol) was greater than cortisone to cortisol (10.3 pmol/h per mg protein at 250 nM cortisone). Data from normal human OB and osteosarcoma cells demonstrate the presence of an endogenous mechanism for inactivation of glucocorticoids in OB cells. We postulate that expression of the type 1 and type 2 isoforms of 11beta-HSD in human bone plays an important role in normal bone homeostasis, and may be implicated in the pathogenesis of steroid-induced osteoporosis.
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PMID:Characterization of 11beta-hydroxysteroid dehydrogenase activity and corticosteroid receptor expression in human osteosarcoma cell lines. 1033 48

Fluorescence stopped-flow studies were conducted with recombinant rat liver 3 alpha-HSD, an aldo-keto reductase (AKR) that plays critical roles in steroid hormone inactivation, to characterize the binding of nicotinamide cofactor, the first step in the kinetic mechanism. Binding of NADP(H) involved two events: the fast formation of a loose complex (E.NADP(H)), followed by a conformational change in enzyme structure leading to a tightly bound complex (E.NADP(H)), which was observed as a fluorescence kinetic transient. Binding of NAD(H) was not characterized by a similar kinetic transient, implying a difference in the mode of binding of the two cofactors. Unlike previously characterized AKRs, the rates associated with the formation and decay of E.NADP(H) and E.NADP(H) were much faster than kcat for the oxidoreduction of various substrates, indicating that binding and release of cofactor is not rate-limiting overall in 3 alpha-HSD. Mutation of Arg 276, a highly conserved residue in AKRs that forms a salt bridge with the adenosine 2'-phosphate of NADP(H), resulted in large changes in Km and Kd for NADP(H) that were not observed with NAD(H). The loss in free energy associated with the increase in Kd for NADP(H) is consistent with the elimination of an electrostatic link. Importantly, this mutation abolished the kinetic transient associated with NADPH binding. Thus, anchoring of the adenosine 2'-phosphate of NADPH by Arg 276 appears to be obligatory for the fluorescence kinetic transients to be observed. The removal of Trp 86, a residue involved in fluorescence energy transfer with NAD(P)H, also abolished the kinetic transient, but mutation of Trp 227, a residue on a mobile loop associated with cofactor binding, did not. It is concluded that in 3 alpha-HSD, the time dependence of the change in Trp 86 fluorescence is due to cofactor anchoring, and thus, Trp 86 is a distal reporter of this event. Further, the loop movement that accompanies cofactor binding is spectrally silent.
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PMID:The arginine 276 anchor for NADP(H) dictates fluorescence kinetic transients in 3 alpha-hydroxysteroid dehydrogenase, a representative aldo-keto reductase. 1038 26

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


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