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)

CONVERSION OF CORTISOL TO CORTISONE: 11 beta-Hydroxysteroid dehydrogenase (11 beta-HSD) is a microsomal enzyme complex which, in humans, catalyses the interconversion between biologically active cortisol and inactive cortisone. This prereceptor signalling mechanism is essential for maintaining the aldosterone selectivity of the intrinsically non-specific mineralocorticoid receptor and for modulating glucocorticoid access to the glucocorticoid receptor. Apparent mineralocorticoid excess (AME) is a syndrome of severe low-renin mineralocorticoid hypertension associated with marked hypokalaemia which arises from a congenital deficiency of 11 beta-HSD. In AME patients, therefore, it is cortisol and not aldosterone which behaves as a potent mineralocorticoid. ISOFORMS OF 11 BETA-HSD: Two isoforms of human 11 beta-HSD have now been characterized and cloned. The type 1 isoform (11 beta-HSD1) is a low-affinity reduced nicotinamide adenine dinucleotide phosphate (NADP) dependent dehydrogenase-oxoreductase which is expressed in predominantly glucocorticoid target tissues and the encoding sequence of which is normal in patients with AME. In contrast, the type 2 isoform (11 beta-HSD2) is a high-affinity NADP-dependent unidirectional dehydrogenase which is expressed in placenta and mineralocorticoid target tissues such as renal collecting ducts and distal colonic epithelia. Exon- and intron-specific polymerase chain reaction amplification of the 11 beta-HSD2 gene from genomic DNA from members of a consanguinous kindred with AME consistently revealed a single missense mutation (C1228T) in two affected sibs and twin stillbirths. This mutation in codon 374 of exon 5 of the 11 beta-HSD2 gene creates an inframe premature stop (TGA) and, as such, results in a truncated 11 beta-HSD2 protein lacking the carboxyl-terminal proline-rich 32 amino acids. In keeping with an autosomal recessive mode of inheritance, both parents were phenotypically and biochemically normal but were heterozygous for this mutation. Unique to this kindred were expression analyses of the native mutant 11 beta-HSD2 enzyme in the stillbirth-affected placenta, which was almost completely devoid of NADP-dependent 11 beta-dehydrogenase activity. Immunohistochemical and Western blot analyses revealed the absence of 11 beta-HSD2 protein using antisera raised against synthetic peptide sequences corresponding either to the carboxyl terminus or other domains of the enzyme. MISSENSE MUTATION: In this kindred with AME, congenital deficiency of 11 beta-HSD activity is due to a single missense mutation in exon 5 of the 11 beta-HSD2 gene. Simultaneous studies by two other groups have similarly revealed no gross deletions or rearrangements of the 11 beta-HSD2 gene, but have described a number of single point mutations and oligonucleotide deletions in exons 3, 4 and 5, and adjacent to a splice site in intron 3. Recombinant expression analysis of site-directed mutant 11 beta-HSD2 complementary DNA constructs suggests a correlation between the predicted severity of these mutations and the biochemical and clinical phenotype. AME AS A CAUSE OF HYPERTENSION: The mutations in the 11 beta-HSD2 gene, together with those currently being sought by us for other kindreds with AME, establishes AME as a monogenic cause of human hypertension and will provide insight into the structure-function relationships of this important enzyme.
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PMID:Human hypertension caused by mutations in the 11 beta-hydroxysteroid dehydrogenase gene: a molecular analysis of apparent mineralocorticoid excess. 912 Jun 78

Leydig cells are susceptible to direct glucocorticoid-mediated inhibition of testosterone biosynthesis but can counteract the inhibition through 11beta-hydroxysteroid dehydrogenase (11beta-HSD), which oxidatively inactivates glucocorticoids. Of the two isoforms of 11beta-HSD that have been identified, type I is an NADP(H)-dependent oxidoreductase that is relatively insensitive to inhibition by end product and carbenoxolone (CBX). The type I form has been shown to be predominantly reductive in liver parenchymal cells and other tissues. In contrast, type II, which is postulated to confer specificity in mineralocorticoid receptor (MR)-mediated responses, acts as an NAD-dependent oxidase that is potently inhibited by both end product and CBX. The identity of the 11beta-HSD isoform in Leydig cells is uncertain, because the protein in this cell is recognized by an anti-type I 11beta-HSD antibody, but the activity is primarily oxidative, more closely resembling type II. The goal of the present study was to determine whether the kinetic properties of 11beta-HSD in Leydig cells are consistent with type I, type II, or neither. Leydig cells were purified from male Sprague-Dawley rats (250 g), and 11beta-HSD was evaluated in Leydig cells by measuring rates of oxidation and reduction, cofactor preference, and inhibition by end product and CBX. Leydig cells were assayed for type I and II 11beta-HSD and MR messenger RNAs (mRNAs), and for type I 11beta-HSD protein. Leydig cell 11beta-HSD had bidirectional catalytic activity that was NADP(H)-dependent. This is consistent with the hypothesis that type I 11beta-HSD is present in rat Leydig cells. However, unlike the type I 11beta-HSD in liver parenchymal cells, the Leydig cell 11beta-HSD was predominantly oxidative. Moreover, analysis of kinetics revealed two components, the first being low a Michaelis-Menten constant (Km) NADP-dependent oxidative activity with a Km of 41.5 +/- 9.3 nM and maximum velocity (Vmax) of 7.1 +/- 1.2 pmol x min x 10(6) cells. The second component consisted of high Km activities that were consistent with type I:NADP-dependent oxidative activity with Km of 5.87 +/- 0.46 microM and Vmax of 419 +/- 17 pmol x min x 10(6) cells, and NADPH-dependent reductive activity with Km of 0.892 +/- 0.051 microM and Vmax of 117 +/- 6 pmol x min x 10(6) cells. The results for end product and CBX inhibition were also inconsistent with a single kinetic activity in Leydig cells. Type I 11beta-HSD mRNA and protein were both present in Leydig cells, whereas type II mRNA was undetectable. We conclude that the low Km NADP-dependent oxidative activity of 11beta-HSD in Leydig cells does not confirm to the established characteristics of type I and may reside in a new form of this protein. We also demonstrated the presence of the mRNA for MR in Leydig cells, and the low Km component could allow for specificity in MR-mediated responses.
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PMID:Identification of a kinetically distinct activity of 11beta-hydroxysteroid dehydrogenase in rat Leydig cells. 916 33

The 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD) enzymes convert corticosterone and cortisol to 11-dehydrocorticosterone and cortisone, and are thought to convey extrinsic specificity to the mineralocorticoid receptor by limiting access of the relatively more abundant glucocorticoids to it. Two different 11 beta-hydroxysteroid dehydrogenases (11 beta-HSD) have been described and cloned. The liver-type, NADP(+)-dependent 11 beta-HSD-1, has an affinity in the micromolar range and bidirectional activity. The NAD(+)-dependent 11 beta-HSD-2 has a higher affinity, in the nanomolar range, and exhibits only oxidase activity. 11 beta-HSD-2, because of its affinity and co-localization with the mineralocorticoid receptor, is likely to serve as the "gatekeeper" for the mineralocorticoid receptor in the kidney. Although the rat kidney expresses both isoforms, only the high-affinity, NAD(+)-dependent 11 beta-HSD-2 has been reported in the sheep kidney. We found both 11 beta-HSD NAD(+)- and NADP(+)-dependent activities in sheep kidney to be present. The NAD(+)-dependent activity exhibited a Km similar to that reported in the literature, 3.85 +/- 1.28 nM for corticosterone and 21.3 +/- 5.8 for cortisol, was distributed in approximately equal amounts between microsomes and nuclei, and was unidirectional, converting corticosterone to 11-dehydrocorticosterone. The enzyme exhibited prominent substrate inhibition. The NADP(+)-dependent activity had a Km for corticosterone of 4 +/- 1.3 nM for a Km for cortisol of 35.2 +/- 2 nM, 100-fold lower than that described for the 11 beta-HSD-1 in the liver of sheep and other species, and was more prevalent in the microsomes than the nuclei. This enzyme was not inhibited by its substrate. The NAD(+)-dependent activity was approximately 3-10 times greater than the NADP(+)-dependent activity when incubated with 5 nM corticosterone substrate, but had similar activity when incubated with 100 nM substrate concentrations. CHOP cells (a modified Chinese hamster ovary cell line) transiently transfected with the sheep 11 beta-HSD-2 plasmid exhibited a marked preference for NAD+ as co-factor. Oxidation of corticosterone by transfected cells in the presence of NADP+ was present, but minimal; NADP+ did not support the metabolism of cortisol, the primary glucocorticoid of sheep. These data suggest the existence of another NADP(+)-dependent enzyme, 11 beta-HSD-3, which, because of its high affinity and unidirectional oxidase activity, may play a physiological role in the modulation of glucocorticoid binding to both the mineralocorticoid and glucocorticoid receptors.
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PMID:The sheep kidney contains a novel unidirectional, high affinity NADP(+)-dependent 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD-3). 917 32

11 beta-hydroxysteroid dehydrogenase (11 beta HSD) has both dehydrogenase (11 beta DH) and reductase (11 beta R) activities, which catalyse the interconversion of cortisol and cortisone, and prednisolone and prednisone. This enzyme confers specificity on the mineralocorticoid receptor by local oxidation of cortisol to cortisone. Using radiolabelled cortisol 11 beta HSD activity has been shown to be lower in some cases of essential hypertension. This study investigated a novel approach to estimating 11 beta HSD activity in vivo. Plasma steroid kinetics were investigated following oral hydrocortisone (a substrate for 11 beta DH) and prednisone (a substrate for 11 beta R) in five normotensive volunteers after dexamethasone suppression of endogenous steroid production. This approach was evaluated by inducing partial deficiency of 11 beta HSD in the volunteers who took liquorice (to inhibit 11 beta DH) and then carbenoxolone (to inhibit both 11 beta DH and 11 beta R). The ratio of cortisol to prednisolone (formed from prednisone) provided a measure of the activity of both 11 beta DH and 11 beta R. At 75 min after the steroid bolus the ratio increased from 1.1 (0.6-1.3) (median, range) under control conditions to 1.2 (0.8-1.7) after liquorice (P = 0.01, n = 5), and 2.0 (1.3-5.9) after carbenoxolone (P = 0.02, n = 5). It may therefore be applied to the measurement of 11 beta HSD activity in vivo in large numbers of hypertensive patients without the use of radioisotopes.
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PMID:A non-isotopic method for estimating 11 beta hydroxysteroid dehydrogenase activity in vivo. 929 6

Arginine vasopressin (AVP) and corticosteroid hormones are involved in sodium reabsorption regulation in the renal collecting duct. Synergy between AVP and aldosterone has been well documented, although its mechanism remains unclear. Both aldosterone and glucocorticoid hormones bind to the mineralocorticoid receptor (MR), and mineralocorticoid selectivity depends on the MR-protecting enzyme 11 beta hydroxysteroid deshydrogenase (11-HSD), which metabolizes glucocorticoids into derivatives with low affinity for MR. We have investigated whether the activity of 11-HSD could be influenced by AVP and corticosteroid hormones. This study shows that in isolated rat renal collecting ducts, AVP increases 11-HSD catalytic activity. This effect is maximal at 10(-8) M AVP (a concentration clearly above the normal physiological range of AVP concentrations) and involves the V2 receptor pathway, while activation of protein kinase C or changes in intracellular calcium are ineffective. The stimulatory effect of AVP on 11-HSD is largely reduced after adrenalectomy, and is selectively restored by infusion of aldosterone, not glucocorticoids. We conclude that this synergy between AVP and aldosterone in controlling the activity of 11-HSD is likely to play a pivotal role in resetting mineralocorticoid selectivity, and hence sodium reabsorption capacities of the renal collecting duct.
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PMID:Vasopressin potentiates mineralocorticoid selectivity by stimulating 11 beta hydroxysteroid deshydrogenase in rat collecting duct. 936 57

Apparent mineralocorticoid excess (AME) characterized by early-onset hypertension and hypokalemia is due to congenital deficiency of 11 beta-hydroxysteroid dehydrogenase (11 beta HSD). Two isoforms of human 11 beta HSD are known, and the type 2 isoform (11 beta HSD2) has been recently shown to be responsible for AME. In this study we have analyzed the 11 beta HSD2 gene of a Japanese patient with AME. PCR amplification and subsequent nucleotide sequencing of the 11 beta HSD2 gene from the patient and his family members revealed that the patient has a compound heterozygous mutation of this gene. In 1 allele, an undescribed single nucleotide transition in codon 208 in exon 3 resulted in a substitution of arginine to histidine (CGC to CAC: R208H). In the other allele, a deletion of 3 nucleotides in codons 337-338 in exon 5 resulted in a substitution of arginine to histidine and a deletion of tyrosine residue (CGCTAT to CAT: R337H, delta Y338), which has been previously shown to abolish 11 beta HSD2 enzyme activity. A chloramphenicol acetyltransferase assay-based expression study involving the mineralocorticoid receptor indicated that the novel R208H mutation eliminates the enzymatic activity of 11 beta HSD2. From the genetic analysis of 50 healthy subjects, the novel R208H mutation was unlikely to be due to polymorphism. Together, these results indicate that this patient is a compound heterozygote for the mutation in the 11 beta HSD2 gene (R208H and R337H, delta Y338) and that these mutations inactivate the 11 beta HSD2 function and give rise to clinically manifest AME.
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PMID:A new compound heterozygous mutation in the 11 beta-hydroxysteroid dehydrogenase type 2 gene in a case of apparent mineralocorticoid excess. 939 12

The 11 beta-hydroxysteroid dehydrogenase type II enzyme (11 beta HSD2) is a potent inactivator of glucocorticoids and is present in high amounts in the placental syncytiotrophoblast and sodium-transporting epithelia. Placental 11 beta HSD2 is thought to protect the fetus from high circulating levels of maternal glucocorticoids, whereas the renal enzyme is important in conferring aldosterone specificity on the mineralocorticoid receptor. An isoform of 11 beta HSD (11 beta HSD1) is also present in a wide range of tissues, but usually acts as an oxoreductase, converting the biologically inactive cortisone to cortisol. In the present study we have used an immunopurified antibody to the carboxy-terminus of human 11 beta HSD2 (HUH23) to demonstrate localization of the enzyme in luminal and glandular epithelia of human endometrium. In some specimens staining was uniformly distributed, but in others there was clear evidence of heterogeneity both between and within epithelia. Although 11 beta HSD2 was found mainly in the cytoplasm, some cells showed evidence of nuclear staining only. Western blot analysis showed a band at 41 kDa in endometrium and myometrium, confirming the presence of 11 beta HSD2. Measurement of activity throughout the menstrual cycle showed that mean levels (+/- SEM) of activity were 156 +/- 17 and 6.1 +/- 1.1 pmol product/min.g homogenate protein for 11 beta HSD2 and 11 beta HSD1, respectively. Patients taking combined estrogen/progesterone contraceptives had significantly lower activities of both enzymes (76 +/- 19 and 1.9 +/- 0.4; both P < 0.01) compared with the control group. 11 beta HSD2 activity was significantly higher in the secretory than in the proliferative phase of the cycle in controls (193 +/- 22 vs. 120 +/- 23; P < 0.05). All groups contained outliers with elevated enzyme activities, with some patients displaying 11 beta HSD2 levels comparable to those observed in human kidney (> 1000 pmol/min.g). Further analysis showed that there was a statistically significant correlation (r = 0.43; P < 0.001) between the levels of 11 beta HSD1 and 11 beta HSD2. There was no detectable mineralocorticoid receptor binding in endometrial cytosols prepared from patients with a range of 11 beta HSD2 activities. It remains to be determined whether elevated or suppressed levels of either isoform are associated with fertility or endometrial pathology.
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PMID:11 beta-Hydroxysteroid dehydrogenase type II in the human endometrium: localization and activity during the menstrual cycle. 939 49

Placental 11beta-hydroxysteroid dehydrogenase (11beta-HSD) regulates transplacental passage of maternal glucocorticoids to the fetus and is thus a key determinant of fetal glucocorticoid levels. It has also been proposed that placental 11beta-HSD expression may influence local glucocorticoid actions by regulating access of corticosterone to the glucocorticoid receptor (GR) or mineralocorticoid receptor (MR). Therefore, the present study used a rat model to assess whether the GR or MR are coexpressed with the two forms of 11beta-HSD (types 1 and 2) in the placental labyrinth zone, the major site of maternal-fetal transfer, and in the basal zone, the primary site of placental hormone synthesis. In situ hybridization analysis was used to assess messenger RNA (mRNA) expression for the GR, MR, 11beta-HSD-1, and 11beta-HSD-2 in the two placental zones on days 16, 19 and 22 of pregnancy (term = day 23). Whereas expression of the GR appeared relatively unchanged in both zones at these three stages of pregnancy, that of 11beta-HSD-1 clearly increased in the labyrinth zone but fell in basal zone, whereas the opposite pattern of expression was observed for 11beta-HSD-2. MR expression was not detected at any stage. The pattern of placental 11beta-HSD-2 mRNA expression over days 16, 19, and 22 of pregnancy was paralleled by changes in 11beta-HSD-2-specific bioactivity, but despite clear expression of 11beta-HSD-1 mRNA, no bioactivity attributable to this enzyme was measurable in either placental zone. To assess the role of fetal adrenal maturation on these changes in 11beta-HSD, two experimental models, maternal adrenalectomy and fetectomy, were employed. Maternal adrenalectomy on day 13 advanced maturation of the fetal adrenal cortex but had no effect on 11beta-HSD-2 bioactivity in either of the placental zones at day 19. Placental 11beta-HSD-2 bioactivity on day 22 was also unaffected by fetectomy 3 or 6 days earlier. In conclusion, the consistent expression of the GR in the two placental zones late in pregnancy suggests that concomitant and marked changes in 11beta-HSD-1 and 11beta-HSD-2 expression could have a major influence on glucocorticoid action in the placenta at this time. Moreover, the changes in 11beta-HSD expression appear to be unrelated to development of the fetal adrenal cortex and are likely to reduce the placental glucocorticoid barrier near the end of pregnancy.
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PMID:Tissue-specific messenger ribonucleic acid expression of 11beta-hydroxysteroid dehydrogenase types 1 and 2 and the glucocorticoid receptor within rat placenta suggests exquisite local control of glucocorticoid action. 952 29

We have confirmed that A6 cells (derived from kidney of Xenopus laevis), which contain both mineralocorticoid and glucocorticoid receptors, do not normally possess 11 beta-hydroxysteroid dehydroxgenase (11 beta-HSD1 or 11 beta-HSD2) enzymatic activity and so are without apparent "protective" enzymes. A6 cells do not convert the glucocorticoid corticosterone to 11-dehydrocorticosterone but do, however, possess steroid 6 beta-hydroxylase that transforms corticosterone to 6 beta-hydroxycorticosterone. This hydroxylase is cytochrome P-450 3A (CYP3A). We have now determined the effects of 3 alpha,5 beta-tetrahydroprogesterone and chenodeoxycholic acid (both inhibitors of 11 beta-HSD1) and 11-dehydrocorticosterone and 11 beta-hydroxy-3 alpha,5 beta-tetrahydroprogesterone (inhibitors of 11 beta-HSD2) and carbenoxalone, which inhibits both 11 beta-HSD1 and 11 beta-HSD2, on the actions and metabolism of corticosterone and active Na+ transport [short-circuit current (Isc)] in A6 cells. All of these 11 beta-HSD inhibitory substances induced a significant increment in corticosterone-induced Isc, which was detectable within 2 h. However, none of these agents caused an increase in Isc when incubated by themselves with A6 cells. In all cases, the additional Isc was inhibited by the mineralocorticoid receptor (MR) antagonist, RU-28318, whereas the original Isc elicited by corticosterone alone was inhibited by the glucocorticoid receptor antagonist, RU-38486. In separate experiments, each agent was shown to significantly inhibit metabolism of corticosterone to 6 beta-hydroxycorticosterone in A6 cells, and a linear relationship existed between 6 beta-hydroxylase inhibition and the MR-mediated increase in Isc in the one inhibitor tested. Troleandomycin, a selective inhibitor of CYP3A, inhibited 6 beta-hydroxylase and also significantly enhanced corticosterone-induced Isc at 2 h. These experiments indicate that the enhanced MR-mediated Isc in A6 cells may be related to inhibition of 6 beta-hydroxylase activity in these cells and that this 6 beta-hydroxylase (CYP3A) may be protecting the expression of corticosterone-induced active Na+ transport in A6 cells by MR-mediated mechanism(s).
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PMID:A second enzyme protecting mineralocorticoid receptors from glucocorticoid occupancy. 961 11

Patients with ectopic ACTH syndrome often develop hypertension and hypokalemic alkalosis with an abnormal increase in the ratio of plasma cortisol to cortisone, indicating that 11 beta-hydroxysteroid dehydrogenase (11 beta HSD) activity is inhibited. Inhibition of 11 beta HSD allows access of cortisol or corticosterone to the mineralocorticoid receptor where it act as a mineralocorticoid. Two isozymes, 11 beta HSD-1 and 11 beta HSD-2, have been cloned and characterized. The rat adrenal expresses the mRNAs for 11 beta HSD-2 and, in lesser amounts, 11 beta HSD-1. We investigated the effect of ACTH on the 11 11 beta HSD-2 activity in the rat adrenal. Rat adrenal cells zone fasciculata (ZF) were dispersed and incubated separately with increasing concentrations of ACTH for 90 min, and secretion of corticosterone (B) and 11-dehydrocorticosterone (A) in the media was measured by enzyme-linked immunoabsorbent assays (ELISA). The conversion of [3H]B to [3H]A in the presence of 0.5 mM NAD+ was evaluated in microsomes prepared from dispersed cells preincubated for 30 min with cyanoketone and metyrapone followed by incubation for 30 min with the same inhibitors, with and without 10 nM ACTH. The dispersed cells of the ZF produced significant amounts of A which increased with ACTH. The basal B/A ratio was 0.97 +/- 0.05. ACTH caused a concentration-dependent increase in the ratio of B/A with a maximum ratio of 9.58 +/- 0.20. ACTH also inhibited the conversion of [3H]B to [3H]A in microsomes in which endogenous B production was inhibited by cyanoketone and metyrapone. ACTH did not change the K(m) for B conversion, but the Vmax was reduced significantly (1.73 +/- 0.43 pmol/min. mg protein), indicating that ACTH suppressed the 11 beta HSD-2 in a noncompetitive fashion. Dibutyryl cyclic AMP (dcAMP) also produced a concentration-dependent increase in the B/A ratio, but various concentrations of calcium did not affect the enzyme activity. In summary, adrenal cells treated with ACTH results in a significant increase in the ratio of B/A in the ZF owing a noncompetitive inhibition of the 11 beta HSD-2 via the ACTH receptor.
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PMID:Regulation of the 11 beta-hydroxysteroid dehydrogenase in the rat adrenal. Decrease enzymatic activity induced by ACTH. 965 70


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