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: UMLS:C0020538 (hypertension)
170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Renal prostaglandins have been implicated in the regulation of blood pressure. We have therefore compared prostaglandin metabolism in the kidneys of spontaneously hypertensive rats (SHR's) of the Aoki-Okamoto strain and normotensive Wistar-Kyoto (WKY) controls. The microsomal fraction of the renal medulla contained most of the prostaglandin synthetase activity in both groups; SHR's had significantly higher enzymatic activity than their normotensive controls at age 10 wk and thereafter; furthermore, synthetase activity in SHR's increased with age. Two forms of 15-hydroxyprostaglandin dehydrogenases were demonstrated: an NAD+-dependent form which was localized mainly in the cortex and an NADP+-dependent form, higher in the medulla. The activities of these enzymes were lower in the hypertensive animals at all ages studied; this depression was more pronounced for the NAD+-dependent dehydrogenase. The results indicate that, in hypertension, renal prostaglandin metabolism is altered so that enhanced synthesis is accompanied by decreased degradation rate.
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PMID:Prostaglandin metabolism in the kidneys of spontaneously hypertensive rats. 1 24

Concentrations of prostaglandins E2 and I2 may be decreased in preeclamptic and eclamptic pregnancies. Because these prostaglandins produce vasodilation and inhibit platelet aggregation it has been suggested that a reduction in their biosynthesis might play an important role in the pathogenesis of the hypertension and coagulation abnormalities associated with preeclampsia. Placental tissue is an extremely rich source of several enzymes that catalyze the catabolism of prostaglandins. The present study was initiated to determine whether one of these catabolic enzymes might be increased in preeclamptic/eclamptic pregnancies. The activities of the NAD- and the NADP-linked 15-hydroxyprostaglandin dehydrogenases were measured in 16 preeclamptics (mean diastolic pressure, 108 +/- 13 mmHg) and compared with 16 normotensive controls matched for age (20.8 +/- 5.43 vs. 20.6 +/- 5.16) and gestational week of delivery (34.6 +/- 5.40 vs. 35.0 +/- 5.06). These results indicate that the activity of the placental NAD-linked 15-hydroxyprostaglandin dehydrogenase is elevated in preeclampsia (40.1 +/- 31.3 vs. 14.9 +/- 8.30 mU/g tissue, P less than 0.01). If this increase were also expressed in vivo, its effect on prostaglandin metabolism could be mistaken for impaired prostacyclin biosynthesis unless both the 6-keto- and 6,15-diketo-metabolites of prostacyclin were measured.
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PMID:In vitro activity of nicotinamide adenine dinucleotide- and nicotinamide adenine dinucleotide phosphate-linked 15-hydroxyprostaglandin dehydrogenases in placentas from normotensive and preeclamptic/eclamptic pregnancies. 330 60

Pulmonary hypertension, edema, and congestion have been found in three infants who died after infusion of chronic TPN solutions through catheters placed into the right atrium (RA) or pulmonary artery (PA). In 24 anesthetized dogs receiving varying concentrations of dextrose and water through catheters placed into the RA, the endothelium of the RA evidenced injury only when concentrations of 20% DW or greater were infused. Both the main PA and distal PA endothelium showed evidence of injury only when concentrations higher than 40% DW were infused. When solutions were infused directly into the main PA, the main PA endothelium revealed injury if more than 15% DW was infused, and the distal PA showed moderate endothelial injury when 10% DW or greater was infused. The distal PA evidenced more severe endothelial injury after concentrated dextrose solution infusion than either the RA or main PA. Pulmonary congestion, edema, and hypertension became increasingly prominent when 24-hour infusions of 10% DW or more were placed into the main PA, or concentrations higher than 40% were infused into the RA. Distal PA endothelial injury appears to correlate directly with the severity of pulmonary congestion, suggesting endothelial cell emboli.
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PMID:The effects of administering hyperalimentation solutions into the atrium and pulmonary artery. 392 9

11 beta-Hydroxysteroid dehydrogenase (11-HSD) catalyzes the conversion of cortisol to cortisone and corticosterone to 11-dehydrocorticosterone. This activity may be required to confer normal ligand specificity upon the mineralocorticoid receptor. Although an isozyme of 11-HSD was previously isolated from rat liver, a different isozyme is apparently expressed in mineralocorticoid target tissues. We isolated a sheep kidney cDNA clone encoding this isozyme by expression screening using Xenopus oocytes. The cDNA is 1.8 kb in length and encodes a protein of 427 amino acid residues with a predicted M(r) of 46,700. When expressed in oocytes, this enzyme functions as an NAD(+)-dependent 11 beta-hydrogenase with very high affinity for steroids, but it has no detectable reductase activity. It is 37% identical in amino acid sequence to an NAD(+)-dependent isozyme of 17 beta-hydroxysteroid dehydrogenase, but only 20% identical to the NADP(+)-dependent liver isozyme of 11-HSD. It is expressed at high levels in the kidney and adrenal and at lower levels in the colon. The corresponding gene is present in a single copy in the sheep genome. In humans, this gene is a candidate locus for the syndrome of apparent mineralocorticoid excess, a form of hypertension postulated to result from 11-HSD deficiency in mineralocorticoid target tissues.
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PMID:Cloning of cDNA encoding an NAD(+)-dependent isoform of 11 beta-hydroxysteroid dehydrogenase in sheep kidney. 758 2

Two isoforms of 11 beta-hydroxysteroid dehydrogenase (11 beta HSD) have been described which catalyze the interconversion of cortisol (F) to cortisone (E). 11 beta HSD activity has previously been reported in placenta and fetal membranes, where its role may be to protect the developing fetus from glucocorticoid excess. Furthermore, in the rat, an association between placental 11 beta HSD activity and the subsequent development of hypertension in the offspring has been reported. We have characterized the isoforms of 11 beta HSD in human fetal membranes and dissected placental tissue at term and investigated the relationship between placental 11 beta HSD activity and fetal and placental weights. 11 beta HSD activity studies in the presence of 0.1 mumol/L F and NAD (indicative of type 2 isoform activity) revealed high levels of activity in trophoblast dissected free of vessels (561 +/- 87 pmol E/h.mg protein; n = 4) > undissected placenta > cotyledenous vessels dissected away from trophoblast > placental and reflected amnion. In contrast, in the presence of 2.5 mumol/L F and NADP (indicative of type 1 isoform activity), only decidua and chorion demonstrated significant levels of 11 beta HSD activity. Type 1 11 beta HSD activity in chorion was probably due to decidual contamination, in that it was absent in decidua-free fused chorion obtained from a twin pregnancy. In keeping with these data, type 1 11 beta HSD messenger ribonucleic acid (1.5 kilobases) was detected in decidua, but in no other tissue, and high levels of type 2 11 beta HSD messenger ribonucleic acid (1.9 kilobases) were found in undissected placenta and trophoblast. In 27 term placentas, 11 beta HSD activity varied from 194-448 pmol E/h.mg protein. There was a weak, but significant, positive correlation between term placental 11 beta HSD activity and fetal weight (r = 0.408; P = 0.034), but no correlation with placental weight. Thus, in man, the reported association of a small fetus and a large placenta predisposing to adult hypertension cannot be explained on the basis of defective 11 beta HSD activity. However, the placenta offers an immense reservoir for F clearance (1.73-7.95 mumol/min.placenta) and may be a principal factor driving fetal ACTH secretion and, hence, fetal adrenal steroidogenesis.
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PMID:Type 2 11 beta-hydroxysteroid dehydrogenase messenger ribonucleic acid and activity in human placenta and fetal membranes: its relationship to birth weight and putative role in fetal adrenal steroidogenesis. 788 47

11 beta-Hydroxysteroid dehydrogenase (11-HSD) catalyzes the conversion of cortisol to cortisone and corticosterone to 11-dehydrocorticosterone. This activity may be required to confer normal ligand specificity upon the mineralocorticoid receptor. Although an isozyme of 11-HSD was previously isolated from rat liver, a different isozyme is apparently expressed in mineralocorticoid target tissues. We isolated a sheep kidney cDNA clone encoding this isozyme by expression screening using Xenopus oocytes. The cDNA is 1.8 kilobase pairs in length and encodes a protein of 427 amino acid residues with a predicted M(r) of 46,700. When expressed in oocytes, this enzyme functions as an NAD(+)-dependent 11 beta-dehydrogenase with very high affinity for steroids, but it has no detectable reductase activity. It is 37% identical in amino acid sequence to an NAD(+)-dependent isozyme of 17 beta-hydroxysteroid dehydrogenase but only 20% identical to the NADP(+)-dependent liver isozyme of 11-HSD. It is expressed at high levels in the kidney and adrenal and at lower levels in the colon. The corresponding gene is present in a single copy in the sheep genome. In humans, this gene is a candidate locus for the syndrome of apparent mineralocorticoid excess, a form of hypertension postulated to result from 11-HSD deficiency in mineralocorticoid target tissues.
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PMID:NAD(+)-dependent isoform of 11 beta-hydroxysteroid dehydrogenase. Cloning and characterization of cDNA from sheep kidney. 792 4

11 beta-Hydroxysteroid dehydrogenase (11 beta HSD) catalyzes the conversion of cortisol to cortisone and plays an important role in the mammalian kidney in regulating cortisol access to the mineralocorticoid receptor. 11 beta HSD-deficient states, such as the syndrome of apparent mineralocorticoid excess (AME), and licorice ingestion result in hypertension in which cortisol acts as a mineralocorticoid. A gene and complementary DNA sequence encoding type I human 11 beta HSD have been described, but this gene is normal in patients with AME. Separate 11 beta HSD isoforms have been described in rat and rabbit kidney, but 11 beta HSD has not been characterized in human kidney. Kinetic analysis of 11 beta HSD activity in human fetal kidney microsomes revealed only a high affinity isoform (apparent Km, 60 nmol/L for cortisol, 13 nmol/L for corticosterone), the activity of which was exclusively nicotinamide adenine dinucleotide (NAD) dependent. No 11-oxo-reductase activity was seen in either renal homogenates or microsomes. 11 beta-Dehydrogenase activity was inhibited by glycyrrhetinic acid (the active ingredient in licorice) in a competitive fashion, with a Ki of 8.7 nmol/L. This 11 beta HSD isoform was clearly distinct from the type I h11 beta HSD enzyme, in that COS-1 cells transfected with type I h11 beta HSD complementary DNA expressed a low affinity (apparent Km, 2.13 mumol/L) isoform, the activity of which was NAD phosphate dependent. 11-Oxo-reductase activity was present in intact transfected cells (apparent Km for cortisone, 0.36 mumol/L), but not in cell lysates. In contrast to the cloned, low affinity, type I h11 beta HSD enzyme, human kidney contains a high affinity NAD-dependent 11 beta HSD isoform. It seems probable that this isoform is responsible for protecting the renal mineralocorticoid receptor from glucocorticoid excess, and a defect in its activity may explain AME.
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PMID:Human kidney 11 beta-hydroxysteroid dehydrogenase is a high affinity nicotinamide adenine dinucleotide-dependent enzyme and differs from the cloned type I isoform. 804 66

11 beta-Hydroxysteroid dehydrogenase (11 beta-HSD) modulates glucocorticoid interactions with mineralocorticoid and glucocorticoid receptors in vivo, by converting 11 beta-hydroxyglucocorticoids to their inactive 11-ketone derivatives. Defective 11 beta-oxidation of glucocorticoids has been associated with hypertension. The objective of this study was to investigate whether 11 beta-HSD contributes to the occurrence of hypertension in spontaneously hypertensive rats (SHRs). The liver and kidney microsomal oxidations of corticosterone (the physiological glucocorticoid in rats) in organs from juvenile (3 weeks old) and adult (3 months old) SHR and Wistar-Kyoto (WKY) rats, with NAD and NADP, show no differences between rat strains. For cortisol, with NADP, adult SHRs show (1.3-3 times; P < 0.05) lower kidney microsomal oxidation rates. The liver microsomal reduction of cortisone shows remarkable interstrain differences; with NADH, reduction is conducted only by adult WKY rats, whereas with NADPH, juvenile animals show similar reduction rates, but at adulthood, only WKYs reduce cortisone. Using Western blot analysis with antibodies against 11 beta-HSD1, positive signals are obtained only for liver microsomes, appearing somewhat lower in SHRs for juvenile but not adult animals. Urinary corticosterone/11-dehydrocorticosterone ratios (measured in adult animals) are not different between rat strains, but are elevated after administration of corticosterone in both strains (although significant only in SHRs). The data provide no indications for exaggerated stimulation of renal corticosteroid receptors, due to modified 11 beta-HSD, in SHRs. However, the experiments suggest the existence of multiple 11 beta-HSDs, in addition to 11 beta-HSD1 and 11 beta-HSD2, some of which may be modified in SHR, but the nature and physiological role of these 11 beta-HSDs is unclear.
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PMID:Comparison of 11 beta-hydroxysteroid dehydrogenase in spontaneously hypertensive and Wistar-Kyoto rats. 858 2

The syndrome of apparent mineralocorticoid excess (AME) is a heritable form of hypertension due to an inborn error of cortisol metabolism and is characterized by hypokalemia and low renin levels despite subnormal or normal levels of aldosterone and other known mineralocorticoids. The syndrome is attributable to congenital deficiency of the enzyme 11 beta-hydroxydehydrogenase (11 beta-HSD), which converts cortisol (F) to biologically inactive cortisone. This results in a prolonged half-life of F, which acts at the kidney level as a potent mineralocorticoid (MC). In fact, both F and aldosterone have similar affinities in vitro for type I MC receptor (MR), and 11 beta-HSD activity protects the MR in vivo from the higher circulating levels of F. The biochemical marker of this disorder is an increased ratio of tetrahydrocortisol (THF) + allo-THF/tetrahydrocortisone (THE) in the urine, which has been found in more than 20 patients described to date, together with evidence of a more general defect in steroid ring A reduction. Only a few cases (the so-called type II form) described in Italy differ from the classic form having a normal THF/THE ratio, but in both forms the ratio of free urinary F/E has recently been found to be similarly high. Dexamethasone is the treatment of choice but is often inadequate in long term control of high blood pressure. Acquired forms of AME are those consequent on abuse of licorice or carbenoxolone, which both inhibit 11 beta-HSD; the latter also inhibits the reverse 11-oxoreductase reaction leading to somewhat different abnormalities of urinary cortisol/cortisone. So far, two isoenzymes of 11 beta-HSD have been purified and cloned; 11 beta-HSD type 1 is NADP-dependent, abundant in liver, lung, and testis, and catalyzes both 11 beta-dehydrogenation and 11 beta-oxoreduction; no mutation in its gene was detected in patients with AME. A second NAD-dependent isoenzyme is present in kidney and placenta and catalyzes dehydrogenation only. Very recently (1995) two groups have independently demonstrated the presence of mutations in its gene, located in chromosome 16q22. New and co-workers found a point mutation in exon 6 of two affected siblings of an Iranian family, while White and co-workers in parallel studies showed point mutations or small deletions in both alleles in nine unrelated patients; importantly, expression studies showed minimal or absent activity for almost all the mutant sequences. No definite mutations have been so far identified in patients with AME type II. AME is thus the third single gene cause of human hypertension to be described, after glucocorticoid remediable aldosteronism in 1992 and Liddle's syndrome in 1994.
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PMID:Apparent mineralocorticoid excess: type I and type II. 873 99

1. The enzyme 11 beta-hydroxysteroid dehydrogenase (11 beta HSD) converts glucocorticoids to their inactive 11-keto metabolites. The ubiquitous expression of the NADP-dependent isoform (11 beta HSD1) suggest an important role in modulating glucocorticoid action, but little is known about 11 beta HSD1 gene expression and enzymatic activity in the rat heart. 2. In the present study rat cardiac 11 beta HSD1 activity and ontogeny of gene expression have been characterized. The addition of NADP, but not NAD, to heart homogenates resulted in significant increases in the metabolism of both corticosterone and cortisol, with the former substrate displaying far greater metabolism. Both 11 beta HSD1 gene expression and enzyme activity increased in parallel from low levels at 1 week of age to maximal levels at 8 weeks, with no further change by 16 weeks of age. 3. We also compared the activity of 11 beta HSD1 in the hearts of male and female spontaneously hypertensive rats (SHR) with normotensive Wistar-Kyoto (WKY) controls. Enzyme activity in the pooled atria of female SHR was significantly higher than in male SHR atria (7.6 +/- 0.6% conversion of corticosterone vs 4.5 +/- 0.5%; P < 0.05). The left ventricles of female WKY rats contained significantly less 11 beta HSD activity than either male WKY rats or female SHR (8.6 +/- 0.8% conversion vs 17 +/- 1.4 and 13.6 +/- 0.5%, respectively; P < 0.05). In the right ventricle, female WKY rats also had significantly less enzyme activity than either female SHR or male WKY rats (4.9 +/- 0.7 vs 10.0 +/- 1.7 and 10.2 +/- 1.4%; P < 0.05). 4. These results clearly show that the rat heart contains significant amounts of the 11 beta HSD1 enzyme and that this activity is sexually dimorphic. Furthermore, significant differences were observed between a normotensive and hypertensive strain of rat. The relevance of these observations to the aetiology and maintenance of hypertension remains to be explored.
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PMID:11 beta-Hydroxysteroid dehydrogenase type I enzyme in the hearts of normotensive and spontaneously hypertensive rats. 888 82


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