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 role of adrenal steroid hormones in hypertension has, until recently, focused on disorders of secretion. We describe a new form of mineralocorticoid hypertension which arises from impaired metabolism of physiological glucocorticoid. 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD) is responsible for the inactivation of cortisol to cortisone. Congenital absence of this enzyme (the syndrome of apparent mineralocorticoid excess) results in cortisol acting as a potent mineralocorticoid. Furthermore, inhibition of this enzyme by glycyrrhizic and glycyrrhetinic acids also accounts for the mineralocorticoid excess states seen following licorice and carbenoxolone ingestion. Whilst impaired 11 beta-HSD activity has been shown in patients with "essential" hypertension, the significance of this finding remains unknown. These clinical studies, however, have uncovered a novel physiological mechanism, whereby the mineralocorticoid receptor (which in vitro has an equal affinity for cortisol and aldosterone) is protected from cortisol excess by the action of 11 beta-HSD. Thus 11 beta-HSD plays a crucial role in determining the in vivo specificity for this receptor.
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PMID:Steroid hormones and hypertension: the cortisol-cortisone shuttle. 811 18

11 beta-Hydroxysteroid dehydrogenase (11 beta-HSD) by converting active glucocorticoid to an inactive metabolite confers specificity upon the mineralocorticoid receptor (MR) and regulates ligand access to the glucocorticoid receptor (GR). Factors which influence 11 beta-HSD activity seem likely to be of considerable importance in the modulation of both mineralocorticoid and glucocorticoid hormone action. The administration of tri-iodothyronine (T3) to rats has previously been shown to reduce 11 beta-HSD activity in liver but not in kidney. We have studied the effect of T3 on 11 beta-HSD gene expression in vivo in rat liver, kidney, distal colon and pituitary. In addition the effects of T3 on 11 beta-HSD gene expression in vitro in the rat pituitary GH3 cell line have been studied. T3 administration to normal adult rats (40 micrograms/day, s.c. for 1, 3 and 7 days) resulted in a marked decline in liver and pituitary 11 beta-HSD mRNA levels and activity following 3 and 7 days of treatment. These reduced levels were maintained for 3 days following withdrawal of T3 treatment, but returned to control levels after 7 days. In contrast 11 beta-HSD mRNA and activity in kidney and distal colon were unaffected by T3 treatment at each time point studied. In vitro, levels of 11 beta-HSD mRNA and activity in GH3 cells were unchanged following 8, 24 and 72 h treatment with T3 (10(-8) to 10(-6) M). T3 bio-activity was confirmed by a marked dose-dependent decline in the expression of the T3 and glucocorticoid responsive gene, prolactin. T3 inhibits 11 beta-HSD gene expression in both liver and pituitary at a pre-translational level. This effect is absent in the predominantly mineralocorticoid target tissues, kidney and distal colon, i.e. it is tissue specific and as such is consistent with the existence of multiple differentially regulated isoforms of 11 beta-HSD. The time course of the T3 effect in liver and pituitary in vivo and the lack of any effect in vitro suggests that this action is indirect, and not as a result of interaction between the T3 receptor and the putative thyroid hormone response element on the rat 11 beta-HSD gene.
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PMID:Tissue specific effects of thyroid hormone on 11 beta-hydroxysteroid dehydrogenase gene expression. 824 Sep 75

Both cortisol and aldosterone bind to and activate the mineralocorticoid receptor. Cortisol concentrations are generally 100- to 200-fold higher than aldosterone concentrations, yet mineralocorticoids clearly exert effects different from glucocorticoids. One hypothesis is that 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD), which converts cortisol to biologically inactive cortisone, protects the mineralocorticoid receptor from cortisol. The circulating concentrations of cortisol in the squirrel monkey are 20- to 50-fold higher than human cortisol concentrations, yet this animal has no evidence of glucocorticoid or mineralocorticoid excess. We used this experiment of nature to test the hypotheses that the known (hepatic) form of 11 beta-HSD protects renal mineralocorticoid receptors from the action of cortisol and that it modulates glucocorticoid concentrations in target tissues. Using a long oligonucleotide based on the rat sequence, we cloned the squirrel monkey 11 beta-HSD complementary DNA and gene. The encoded monkey amino acid sequence is 75% and 91% identical to the corresponding rat and human sequences, respectively. The tissue abundance of the messenger RNA for the monkey enzyme was similar to or less than that seen for the rat and human enzymes. Both the monkey and human 11 beta-HSD complementary DNAs were cloned into an expression vector and used to transfect cultures of Chinese hamster ovary cells. Both vectors were transcribed and translated into equivalent amounts of 11 beta-HSD enzyme. The monkey enzyme was slightly more efficient than the human enzyme in converting [3H]cortisol to cortisone, and estimates of the Michaelis-Menten constant and maximum velocity of both enzymes are similar. These data indicate that the abundance and activity of the hepatic form of 11 beta-HSD are insufficient to inactivate the very high concentrations of cortisol in the squirrel monkey, suggesting that this form of 11 beta-HSD does not defend the mineralocorticoid receptor or protect tissues from high cortisol concentrations. Rather, this enzyme appears to favor conversion of cortisone to cortisol, thus maximizing tissue concentrations of cortisol to overcome glucocorticoid resistance associated with a 50% reduction in glucococorticoid receptors.
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PMID:Structure and function of the hepatic form of 11 beta-hydroxysteroid dehydrogenase in the squirrel monkey, an animal model of glucocorticoid resistance. 831 83

In the rat kidney 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD) maintains normal in vivo specificity for mineralocorticoid receptor (MR) by converting the active steroid corticosterone to inactive 11-dehydrocorticosterone, leaving aldosterone to occupy the MR. Clinical observations support the hypothesis that 11 beta-HSD also protects the distal colonic MR from glucocorticoid excess. We have measured 11 beta-HSD mRNA and activity along the rat colon and have analyzed the distribution of 11 beta-HSD, MR, and glucocorticoid receptor (GR) mRNA within rat distal colon using in situ hybridization. Levels of 11 beta-HSD mRNA (1.7 and 3.4 kb) and activity were higher in distal vs. proximal colon, paralleling reported MR mRNA levels. Within the distal colon mucosa both 11 beta-HSD immunoreactivity and mRNA was observed in cells in the lamina propria but not in epithelial cells. MR mRNA was present in surface epithelial cells, but was also colocalized with the same 11 beta-HSD-expressing cells in the lamina propria. In contrast GR mRNA was more uniformly distributed. The localization of MR mRNA to nonepithelial cells in the lamina propria, possibly neuroendocrine cells, suggests that mineralocorticoid-regulated sodium transport across colonic epithelial cells may also involve a paracrine mechanism. As with the kidney, exposure of active mineralocorticoid to the MR in these cells in the lamina propria is dictated by 11 beta-HSD in an autocrine fashion.
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PMID:11 beta-hydroxysteroid dehydrogenase and corticosteroid hormone receptors in the rat colon. 839 8

The 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD) activity of the kidney prevents access of cortisol or corticosterone to the renal mineralocorticoid receptor. Reduction of 11 beta-HSD activity by nutritional, hormonal, or pharmacologic factors might enhance the mineralocorticoid effect of these corticosteroids, thus causing sodium retention. To test this concept, we studied the effect on 11 beta-HSD activity of several antinatriuretic factors given orally to rats or exposed in vitro to rat renal tissue. Renal 11 beta-HSD activity was higher in fasted than fed rats (P < .05). Glucose, ethanol, and Toradol (Syntex Laboratories, Palo Alto, CA) given orally to fasted rats all reduced renal 11 beta-HSD activity by 20% to 40% (P < .05-.005) to levels similar to those observed in fed animals. Incubation of renal tissue from fasted rats with physiologic concentrations of insulin, ethanol, and Toradol also reduced 11 beta-HSD activity by 20% to 40% (P < .05-.01). These findings are consistent with the hypothesis that the antinatriuretic actions of these stimuli are due in part to alteration of renal 11 beta-HSD leading to greater mineralocorticoid effects in kidney.
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PMID:Acute reduction of renal 11 beta-hydroxysteroid dehydrogenase activity by several antinatriuretic stimuli. 841 53

The mineralocorticoid receptor displays equal affinity for aldosterone and corticosterone. It has been proposed that aldosterone selectivity in vivo is achieved by the conversion of corticosterone into its inactive metabolite 11-dehydrocorticosterone by 11 beta-hydroxysteroid dehydrogenase (11 beta HSD). To test this hypothesis, we transfected rat liver 11 beta HSD cDNA into TBM cells, a sodium-transporting cell line. These cells respond equally well to aldosterone and corticosterone, indicating that endogenous 11 beta HSD is expressed at low levels in TBM cells. Although exogenous rat liver 11 beta HSD was expressed at high levels in transfected cells, mineralocorticoid selectivity was not observed. By contrast, the biologically inactive 11-dehydrocorticosterone was readily converted into corticosterone, a potent agonist for sodium transport. Our results indicate that rat liver 11 beta HSD behaves predominantly as a reductase in TBM cells. Another 11 beta HSD isoform is likely to be responsible for the dehydrogenase reaction in aldosterone-responsive cells.
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PMID:Rat liver 11 beta-hydroxysteroid dehydrogenase complementary deoxyribonucleic acid encodes oxoreductase activity in a mineralocorticoid-responsive toad bladder cell line. 842 81

11 beta-Hydroxysteroid dehydrogenase (11 beta HSD) is responsible for the interconversion of cortisol to cortisone [corticosterone (B) to 11-dehydrocorticosterone in rodents] and confers ligand specificity to the mineralocorticoid receptor. Inhibition of 11 beta HSD by licorice derivatives [glycyrrhizic and glycyrrhetinic (GE) acids] results in cortisol/B and not aldosterone acting as a potent mineralocorticoid. 11 beta HSD is ubiquitously expressed and, by converting active glucocorticoid to inactive metabolites, may be an important prereceptor regulator of ligand access to the glucocorticoid receptor (GR). To investigate this further, we have studied the effect of 11 beta HSD inhibition by licorice derivatives on PRL gene expression (a known glucocorticoid target gene) in rat pituitary GH3 cells. Glycyrrhizic acid administration to rats in vivo (75 mg/kg.day for 5 days) resulted in inhibition of 11 beta HSD activity, as previously reported, but also a significant reduction in steady state 11 beta HSD mRNA levels in both predominantly mineralocorticoid (kidney and distal colon) and glucocorticoid (liver and pituitary) target tissues. In vitro, 11 beta HSD mRNA and activity were present in rat pituitary GH3 cells (81% conversion of B to 11-dehydrocorticosterone/4 x 10(6) cells after 24-h incubation) and inhibited by GE in a dose-dependent fashion. While B or GE alone (10(-8)-10(-5) M) had little or no effect on PRL mRNA levels or immunoassayable PRL, combinations of GE plus B resulted in marked inhibition of PRL mRNA levels and secretion, to such an extent that a concentration of 10(-6) M B with 10(-6) M GE was more potent than equimolar concentration of the synthetic GR agonist RU 28362. This inhibitory effect on PRL mRNA levels was blocked by a 10-fold excess of the GR antagonist RU 38486, but not by a 10-fold excess of the mineralocorticoid receptor antagonist RU 26752, confirming that this potentiation of glucocorticoid hormone action was operating through the GR and not the mineralocorticoid receptor. In addition to its established role as a competitive inhibitor of 11 beta HSD, licorice results in pretranslational inhibition of 11 beta HSD both in vitro and in vivo. 11 beta HSD is clearly an important mechanism in regulating tissue levels of active glucocorticoid and, hence, ligand supply to the GR.
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PMID:Licorice inhibits 11 beta-hydroxysteroid dehydrogenase messenger ribonucleic acid levels and potentiates glucocorticoid hormone action. 850 32

11 beta-Hydroxysteroid dehydrogenase (11 beta HSD) converts glucocorticoids to inactive products and is thus thought to confer specificity for aldosterone on the type I mineralocorticoid receptor in the kidney. Recent studies indicate the presence of at least two isozymes of 11 beta HSD. In vitro, the NAD(+)-dependent kidney (type 2) isozyme catalyzes 11 beta-dehydrogenase but not reductase reactions, whereas the NADP(+)-dependent liver (type 1) isozyme catalyzes both reactions. We have now characterized the human gene encoding kidney 11 beta HSD (HSD11K). A bacteriophage P1 clone was isolated after screening a human genomic library by hybridization with sheep HSD11K cDNA. The gene consists of 5 exons spread over 6 kb. The nucleotide binding domain lies in the first and the second exon, and the catalytic domain in the fourth exon. The 5' flanking sequences and first exon are GC-rich (80%), suggesting that the gene may be transcriptionally regulated by factors that recognize GC-rich sequences. Fluorescence in situ hybridization of metaphase chromosomes with a positive P1 clone localized the gene to chromosome 16q22. In contrast, the HSD11L (liver isozyme) gene is located on chromosome 1 and contains 6 exons; the coding sequences of these genes are only 21% identical. HSD11K is expressed at high levels in the placenta and kidney of midgestation human fetuses and at lower levels in lung and testes. Different transcriptional start sites are utilized in kidney and placenta. These data should be applicable to genetic analysis of the syndrome of apparent mineralocorticoid excess, which may represent a deficiency of 11 beta HSD.
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PMID:Gene structure and chromosomal localization of the human HSD11K gene encoding the kidney (type 2) isozyme of 11 beta-hydroxysteroid dehydrogenase. 853 71

A characteristic feature of the ectopic ACTH syndrome is a state of mineralocorticoid excess, although the etiology remains obscure. Some forms of endocrine hypertension, such as licorice ingestion, have been explained by cortisol acting as a mineralocorticoid in the setting of inhibition or deficiency of 11 beta-hydroxysteroid dehydrogenase (11 beta HSD). This enzyme is responsible for the conversion of cortisol (F) to hormonally inactive cortisone, and its activity in vivo can be inferred from the ratio of the urinary excretion of tetrahydrocortisol (THF) and its isomer (5 alpha THF) to tetrahydrocortisone. Twenty-two patients with Cushing's syndrome (11 pituitary dependent, 9 ectopic, and 2 adrenal adenomas) and 13 controls were studied. Compared to controls. Cushing's patients had a significant increase (P < 0.001) in the excretion of all principal metabolites of F, secondary to a 5- to 6-fold increase in the cortisol secretion rate [median, 34.0 (range, 13.3-327) mg/day in Cushing's vs. 6.1 (range, 2.5-10.3) mg/day in controls]. The THF plus 5 alpha THF/tetrahydrocortisone ratio was significantly increased in Cushing's syndrome regardless of etiology [mean, 1.81 (range, 1.09-9.99) in Cushing's vs. 0.81 (range, 0.51-1.47) in controls; P < 0.001), indicative of defective 11 beta HSD activity. Furthermore, compared to patients with pituitary-dependent Cushing's, this ratio was significantly higher in patients with the ectopic ACTH syndrome (4.12 vs. 1.49; P < 0.01) and was inversely correlated with serum potassium levels (r = -0.57; P = 0.01; n = 22). One explanation for the mineralocorticoid excess state of the ectopic ACTH syndrome appears to be that cortisol gains inappropriate access to the mineralocorticoid receptor through failure of its normal metabolism by 11 beta HSD. The reason for the defective 11 beta HSD activity is unclear, but it may be secondary to substrate saturation, inhibition by other adrenal steroids, or product inhibition.
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PMID:11 beta-Hydroxysteroid dehydrogenase activity in Cushing's syndrome: explaining the mineralocorticoid excess state of the ectopic adrenocorticotropin syndrome. 853 Jun 9

Effective glucocorticoid inactivation is currently thought to be an indispensable feature of mineralocorticoid target cells. The enzyme 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD) inactivates glucocorticoids and prevents them from binding to the non-selective mineralocorticoid receptor. In the kidney it is the NAD dependent high affinity isoform (11 beta-HSD2) which is thought to endow specificity on the receptor. The recent cloning of the human, sheep and rabbit 11 beta-HSD2 enzymes permits a comparison of the enzyme from the three species. Human and rabbit enzymes are 87% identical and of similar length, while the human and sheep enzymes have only 75% identity. The last 12 residues in all three species were found to be highly divergent, but most of the ovine dishomology can be accounted for by the deletion of a single nucleotide toward the C-terminus of the protein resulting in a shift in reading frame generating a protein 27 residues longer than the human isoform. Numerous other deletions were also observed in this region of the sheep cDNA sequence. Furthermore, the rabbit cDNA also displayed a large degree of dishomology with the human sequence a short distance downstream from the termination codon. Conserved overlapping cytoplasmic translocation signals were observed in all three species, suggesting a topology whereby the enzyme is anchored into the endoplasmic reticulum by multiple hydrophobic regions in the N-terminus and the bulk of the 11 beta-HSD2 peptide is sited in the cytoplasm. A polyclonal antibody generated against the C-terminus of human 11 beta-HSD2 was used to localize the enzyme within the kidney. A high level of immunoreactive was observed in distal tubules and collecting ducts, localizing the enzyme to the same part of the nephron as the mineralocorticoid receptor. Moderate levels of staining were also seen in vascular smooth muscle cells. These results support the notion that 11 beta-HSD2 is an autocrine protector of the mineralocorticoid receptor and that it plays an important role in cardiovascular homeostatic mechanisms.
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PMID:The human 11 beta-hydroxysteroid dehydrogenase type II enzyme: comparisons with other species and localization to the distal nephron. 854 70


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