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)

Local tissue concentrations of glucocorticoids are modulated by the enzyme 11beta-hydroxysteroid dehydrogenase which interconverts cortisol and the inactive glucocorticoid cortisone in man, and corticosterone and 11-dehydrocorticosterone in rodents. The type I isoform (11beta-HSD1) is a bidirectional enzyme but acts predominantly as a oxidoreductase to form the active glucocorticoids cortisol or corticosterone, while the type II enzyme (11beta-HSD2) acts unidirectionally producing inactive 11-keto metabolites. There are no known clinical conditions associated with 11beta-HSD1 deficiency, but gene deletion experiments in the mouse indicate that this enzyme is important both for the maintenance of normal serum glucocorticoid levels, and in the activation of key hepatic gluconeogenic enzymes. Other important sites of action include omental fat, the ovary, brain and vasculature. Congenital defects in the 11beta-HSD2 enzyme have been shown to account for the syndrome of apparent mineralocorticoid excess (AME), a low renin severe form of hypertension resulting from the overstimulation of the non-selective mineralocorticoid receptor by cortisol in the distal tubule of the kidney. Inactivation of the 11beta-HSD2 gene in mice results in a phenotype with similar features to AME. In addition, these mice show high neonatal mortality associated with marked colonic distention, and remarkable hypertrophy and hyperplasia of the distal tubule epithelia. 11Beta-HSD2 also plays an important role in decreasing the exposure of the fetus to the high levels of maternal glucocorticoids. Recent work suggests a role for 11beta-HSD2 in non-mineralocorticoid target tissues where it would modulate glucocorticoid access to the glucocorticoid receptor, in invasive breast cancer and as a mechanism providing ligand for the putative 11-dehydrocorticosterone receptor. While previous homologies between members of the SCAD superfamily have been of the order of 20-30% phylogenetic analysis of a new branch of retinol dehydrogenases indicates identities of > 60% and overlapping substrate specificities. The availability of crystal structures of family members has allowed the mapping of conserved 11beta-HSD domains A-D to a cleft in the protein structure (cofactor binding domain), two parallel beta-sheets, and an alpha-helix (active site), respectively.
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PMID:The type I and type II 11beta-hydroxysteroid dehydrogenase enzymes. 1041 17

The monogenic forms of human hypertension have yielded to the power of modern genetic techniques in the last several years. With the successful expression cloning of the subunits of the epithelial sodium channel, a whole era has evolved in our basic understanding of the low renin forms of human hypertension. Of note, all of these hypertensive syndromes (Liddle's syndrome, glucocorticoid-remediable aldosteronism, and the apparent mineralocorticoid excess syndrome) share an underlying dysregulation of the activity of the epithelial sodium channel in the cortical collecting tubule. Loss of function defects due to mutations in the channel subunits themselves, or in the mineralocorticoid receptor (pseudohypoaldosteronism, type I) also affect blood pressure regulation consequent to renal salt wasting and dysregulation of the epithelial sodium channel in the cortical collecting tubule.
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PMID:Hypertension. 1043 75

The mammalian distal nephron plays a pivotal role in adjusting urinary sodium excretion. Successive portions of the renal tubule are formed to adapt to this function, and an axial heterogeneity of the distal segments has been defined. The specific transport properties of these epithelia are accomplished by the expression of proteins (cotransporters, exchangers, channels) governing the movement of ions on either cell side. Molecular cloning of these proteins has had a marked impact on the study of their localization and function in the healthy and diseased kidney. Electroneutral cation-chloride cotransporters [Na(K)CC] have been localized to the thick ascending limb and the distal convoluted tubule using specific probes. Proteins implicated in the function of aldosterone target cells, such as the epithelial Na(+) channel (ENaC), the mineralocorticoid receptor (MR) and 11beta-hydroxysteroid dehydrogenase type 2 (11HSD2), an enzyme that confers mineralocorticoid specificity, have been found in the terminal portion of the nephron and the collecting duct. A mineralocorticoid-sensitive component of thiazide-sensitive NaCl transport has been identified in the distal convoluted tubule. Analysis of the ontogeny of these proteins in the maturing kidney has provided a detailed picture of epithelial differentiation and morphological specialization of the renal tubule. The study of mutations of the proteins related with NaCl transport has led to the identification of the molecular causes of inherited human diseases associated with hypo- or hypertension, and the respective sites of an impaired ion transport could be mapped to the renal tubule.
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PMID:Sodium transport-related proteins in the mammalian distal nephron - distribution, ontogeny and functional aspects. 1052 14

In vitro, cortisol and aldosterone have a similar affinity to the mineralocorticoid receptor. The 11beta-hydroxysteroid dehydrogenase catalyzes the interconversion of cortisol to its inactive 11-oxo-metabolite cortisone. This interconversion is responsible for the in vivo specificity of the mineralocorticoid receptor. A defect of this enzyme leads to a pseudohyperaldosteronism with hypertension and hypokalemia, the so-called apparent mineralocorticoid excess syndrome. Glycyrrhetinic acid, a compound of licorice, also leads to pseudohyperaldosteronism by an inhibition of the 11beta-hydroxysteroid dehydrogenase. We studied the pharmacokinetics of glycyrrhetinic acid and its effect on the 11beta-hydroxysteroid dehydrogenase. Ten healthy students, aged 24 to 38 years, were included in the study. On the first day 500 mg glycyrrhetinic acid were given orally at 08.00 h. Blood and urine samples were taken prior to and 2, 4, 7, 10 and 24 hours after ingestion of glycyrrhetinic acid. We measured the serum level of cortisol, cortisone and glycyrrhetinic acid and the urinary excretion rates of cortisol, cortisone and their 20-dihydrometabolites. For determination of glycyrrhetinic acid and steroid levels we used a fully automated liquid chromatographic analyzer which allows the highly specific and simultaneous determination of steroid profiles even in the matrix of urine. Ratios of the 11-hydroxy- and 11-oxo-metabolites were calculated and correlated to the serum level of glycyrrhetinic acid. We found a significant correlation of the steroid-ratios to the serum levels of glycyrrhetinic acid. Coefficients of correlation were 0.9873, 0.7812, 0.7396 and 0.5844 between the serum level of glycyrrhetinic acid and the cortisol/cortisone-ratio in serum (p < 0.0001), the cortisol/cortisone-ratio in urine (p = 0.0279), the 20alpha-dihydrocortisol/20alpha-dihydrocortisone-ratio in urine (p = 0.0119) and the 20beta-dihydrocortisol/20beta-dihydrocortisone-ratio in urine (p = 0.0419), respectively. We conclude that the ratios of cortisol to cortisone and of the 20-dihydrometabolites of cortisol to the 20-dihydrometabolites of cortisone provide a simple noninvasive tool for monitoring the in-vivo activity of the 11beta-hydroxysteroid dehydrogenase.
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PMID:Administration of glycyrrhetinic acid: significant correlation between serum levels and the cortisol/cortisone-ratio in serum and urine. 1054 14

The 11 beta-hydroxysteroid dehydrogenase type 2 (11 PHSD2) enzyme inactivates 11 betahydroxy steroids in sodium-transporting epithelia such as the kidney, thus protecting the non-selective mineralocorticoid receptor (MR) from occupation by cortisol in humans. Inhibition by xenobiotics such as liquorice or mutations in the HSD11 B2 gene, as occur in the rare monogenic hypertensive syndrome of apparent mineralocorticoid excess (AME), result in a compromised 11 betaHSD2 enzyme activity, which in turn leads to overstimulation of the MR by cortisol, sodium retention, hypokalaemia, low plasma renin and aldosterone concentrations, and hypertension. Whereas the first patients described with AME had a severe form of hypertension and metabolic derangements, with an increased urinary ratio of cortisol (THF+5alphaTHF) to cortisone (THE) metabolites, more subtle effects of mild 11 beta HSD2 deficiency on blood pressure have recently been observed. Hypertension with no other characteristic signs of AME was found in the heterozygous father of a child with AME, and we described a girl with a homozygous gene mutation resulting in only a slightly reduced 11 beta HSD2 activity causing 'essential' hypertension. Thus, depending on the degree of loss of enzyme activity, 11 beta HSD2 mutations can cause a spectrum of phenotypes ranging from severe, life-threatening hypertension in infancy to a milder form of the disease in adults. Patients with essential hypertension usually do not have overt signs of mineralocorticoid excess, but nevertheless show a positive correlation between blood pressure and serum sodium levels, or a negative correlation with potassium concentrations, suggesting a mineralocorticoid influence. Recent studies revealed a prolonged half-life of cortisol and an increased ratio of urinary cortisol to cortisone metabolites in some patients with essential hypertension. These abnormalities may be genetically determined. A genetic association of a HSD11 B2 flanking microsatellite and hypertension in black patients with end-stage renal disease has been reported. A recent analysis of a CA-repeat allele polymorphism in unselected patients with essential hypertension did not find a correlation between this marker and blood pressure. Since steroid hormones with mineralocorticoid action modulate renal sodium retention, one might hypothesize that genetic impairment of 11 beta HSD2 activity would be more prevalent in salt-sensitive as compared with salt-resistant subjects. Accordingly, we found a significant association between the polymorphic CA-microsatellite marker and salt-sensitivity. Moreover, the mean ratio of urinary cortisol to cortisone metabolites, as a measure for 11betaHSD2 activity, was markedly elevated in salt-sensitive subjects. These findings suggest that variants of the HSD11 B2 gene may contribute to the enhanced blood pressure response to salt in some humans.
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PMID:The role of the 11beta-hydroxysteroid dehydrogenase type 2 in human hypertension. 1093 Jan 96

Aldosterone selectivity in mineralocorticoid target tissues is mainly due to 11beta-hydroxysteroid dehydrogenase (11betaHSD), which converts cortisol to its inactive metabolite cortisone in humans. The defect of dehydrogenase activity would thus allow type 1 mineralocorticoid receptor (MR) to be occupied mostly by cortisol. It has been postulated that 11betaHSD type 2 (11betaHSD2) plays a significant role in conferring ligand specificity on the MR. We have demonstrated the diminished dehydrogenase activity in resistance vessels of genetically hypertensive rats. However, the mechanism that could link impaired vascular 11betaHSD activity and elevated blood pressure has been unclear. In this study, we showed the enzyme activity in human coronary artery smooth muscle cells. Glucocorticoids and mineralocorticoids increase vascular tone by up-regulating the receptors of pressor hormones such as angiotensin II (Ang II). Next, we found that physiological concentrations of a cortisol-induced increase in Ang II binding were significantly enhanced by the inhibition of dehydrogenase activity with an antisense DNA complementary to 11betaHSD2 mRNA, and the enhancement was partially but significantly abolished by a selective aldosterone receptor antagonist. This may indicate that impaired dehydrogenase activity in vascular wall results in increased vascular tone by the contribution of cortisol, which acts as a mineralocorticoid. In congenital 11betaHSD deficiency and after the administration of 11betaHSD inhibitors, suppression of dehydrogenase activity in the kidney has been believed to cause renal mineralocorticoid excess, resulting in sodium retention and hypertension. These results show that vascular 11betaHSD activity could influence blood pressure without invoking renal sodium retention.
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PMID:11beta-hydroxysteroid dehydrogenase in human vascular cells. 1076 66

Aldosterone acts in mineralocorticoid-sensitive cells by binding to the mineralocorticoid receptor (MR). Because the MR displays similar affinity for aldosterone and glucocorticoid hormones and because these latter hormones are 100- to 1000-fold more abundant than aldosterone in the plasma, mechanisms are required to avoid permanent illicit occupancy of MR by glucocorticoid hormones. The main mechanism of mineralocorticoid selectivity is enzymatic: the 11beta hydroxysteroid dehydrogenase (HSD2) metabolizes glucocorticoid hormones into derivatives with a low affinity for MR. The cell biology and regulation of HSD2 are reviewed in this article, as well as its implications in human hypertension. Other factors play a role in mineralocorticoid selectivity: the MR itself, the possibility to form homodimers (MR-MR), or heterodimers (with the glucocorticoid receptor). All of these cellular events participate to successive dynamic equilibriums, which allow fine tuning of transcriptional regulation of target genes, depending on the target tissue and the hormonal status.
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PMID:Mineralocorticoid selectivity: molecular and cellular aspects. 1076 68

The renal 11beta-hydroxysteroid dehydrogenase type 2 (11betaHSD2) enzyme inactivates 11-hydroxy steroids in the kidney, thus protecting the nonselective mineralocorticoid receptor (MR) from occupation by glucocorticoids. The gene is highly expressed in all sodium-transporting epithelia, but also in human placenta, pancreas, and thyroid. Mutations in the HSD11B2 gene cause a rare monogenic juvenile hypertensive syndrome called apparent mineralocorticoid excess (AME). In AME, compromised 11betaHSD2 enzyme activity results in overstimulation of the MR by cortisol, causing sodium retention, hypokalemia, and salt-dependent hypertension. Recent evidence suggests a role of the 11betaHSD2 in essential hypertension. We found hypertension with no other characteristic signs of AME in the heterozygous father of a child with AME and in a girl with a homozygous gene mutation resulting in a mild deficiency of 11betaHSD2. Moreover, some studies in patients with essential hypertension showed a prolonged half-life of cortisol and an increased ratio of urinary cortisol to cortisone metabolites, suggesting a deficient 11betaHSD2 activity. These abnormalities may be genetically determined. A genetic association of a microsatellite flanking the HSD11B2 gene and hypertension in black patients with end-stage renal disease has been reported. We recently analyzed a CA-repeat allele polymorphism in unselected patients with essential hypertension, but did not find any correlation between this marker and blood pressure. However, we did find an association between this polymorphic CA microsatellite marker and salt sensitivity. Moreover, the activity of the 11betaHSD2, as shown by elevated mean ratios of urinary cortisol to cortisone metabolites, was decreased in salt-sensitive compared with salt-resistant subjects. These findings indicate that variants of the HSD11B2 gene contribute to the enhanced blood pressure response to salt in humans.
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PMID:Role of the 11beta-hydroxysteroid dehydrogenase type 2 in blood pressure regulation. 1076 70

Glucocorticoids may underlie the association between prenatal stress, low birth weight and adult stress-associated disorders, e.g. hypertension and type 2 diabetes, increased hypothalamic-pituitary-adrenal (HPA) activity and affective dysfunction. Normally, 11beta-hydroxysteroid dehydrogenase type 2 (11beta-HSD2) rapidly inactivates glucocorticoids in placenta and many foetal tissues, thus acting as a 'barrier' to maternal steroids. We investigated the effect of inhibiting foeto-placental 11beta-HSD in rats, using carbenoxolone (CBX), on subsequent HPA activity and regulation and stress-induced behaviour in adult offspring. Pregnant Wistar rats were injected with CBX (12.5 mg s.c.) or vehicle daily throughout pregnancy. CBX treatment reduced birth weight. Adult offspring of CBX-treated dams had persistently reduced body weight, increased basal corticosterone (CORT) levels, increased corticotropin-releasing hormone (CRH) and reduced glucocorticoid receptor (GR) mRNA in the hypothalamic paraventricular nucleus, though hippocampal GR and mineralocorticoid receptor (MR) mRNA expression were unaltered. In addition, these animals showed less grooming and rearing in an open field and reduced immobility in a forced swim test, and had increased GR mRNA expression in the basolateral (BLA), central (CEA) and medial (MEA) nuclei of the amygdala, with unaltered MR mRNA. These data suggest that disturbance of the foeto-placental enzymatic barrier to maternal glucocorticoids reduces birth and body weight, and produces permanent alterations of the HPA axis and anxiety-like behaviour in aversive situations. The behavioural and HPA effects may reflect GR gene programming in amygdala and hypothalamus, respectively. Foetal overexposure to endogenous glucocorticoids (prenatal stress or reduced activity of foeto-placental 11beta-HSD) may represent a common link between the prenatal environment, foetal growth and adult neuroendocrine and affective disorders.
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PMID:Inhibition of 11beta-hydroxysteroid dehydrogenase, the foeto-placental barrier to maternal glucocorticoids, permanently programs amygdala GR mRNA expression and anxiety-like behaviour in the offspring. 1076 36

Spironolactone, a competitive aldosterone receptor antagonist (ARA), has traditionally been the treatment of first choice in idiopathic hyperaldosteronism (IHA) and for preoperative management of aldosterone producing adenoma (APA). Spironolactone is partially absorbed, is extensively metabolized mainly by the liver and its therapeutic properties are attributable to active metabolite canrenone. At therapeutic doses of 25 to 400 mg per day, spironolactone effectively controls blood pressure and hypokalemia in the majority of cases. Endocrine side effect are often associated and mainly consist of gynecomastia, decreased libido and impotence in man and menstrual irregularities in women. Canrenone and the K+ salt of canrenoate are also in clinical use: they avoid the formation of intermediate products with anti-androgenic and progestational actions, resulting in a decreased incidence of side effects. Furthermore, a relatively new selective ARA compound (eplerenone) with reduced affinity for androgen and progesterone receptors, is currently undergoing clinical trials. In essential hypertension aldosterone can contribute to hypertension and increases the incidence of myocardial hypertrophy and cardiovascular events. On the other hand, inhibition of Renin-Angiotensin-Aldosterone System (RAAS) is associated with a decrease in blood pressure, with a regression of left ventricular hypertrophy and a reduction of target organ damage. Thus, ARA have been proposed as complementary treatment associated to ACE inhibitors and angiotensin receptor antagonists. Aldosterone is also known to play an important role in pathophysiolgy of congestive heart failure (CHF). In vitro and in vivo evidences suggest that aldosterone promotes myocardial fibrosis. This effect reflects direct, extra-epithelial actions of aldosterone via cardiac MR which are counteracted by ARAs in animal models. The RAAS is chronically activated in CHF. Non potassium-sparing diuretics further stimulate the RAAS and cause hypokalemia. Thus, use of ARAs in CHF was first proposed to correct potassium and magnesium depletion. At present ARAs are indicated in the management of primary hyperaldosteronism, in oedematous conditions in patients with CHF, in cirrhosis of the liver accompanied by oedema and ascites, in essential hypertension and in hypokalemic states. Its indication as adjunctive therapy of heart failure is currently under investigation. In fact, it is well known that even high doses of ACE inhibitors may not completely suppress the RAAS; aldosterone 'escape' may occur through non angiotensin II dependent mechanisms. Addition of spironolactone to an ACE inhibitor causes marked diuresis and symptomatic improvement. During the last few years, the RALES study (Randomized Aldactone Evaluation Study) was organized to explore the efficacy of combination therapy with spironolactone and ACE inhibitor in patients with CHF, class III or IV NYHA. The study was stopped 18 months early because the results were so statistically and clinically significant that it would be unethical to continue the trial. It is reported a 30 percent decrease in mortality and hospitalisation for cardiac causes in spironolactone-treated group vs placebo group.
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PMID:Aldosterone antagonists in hypertension and heart failure. 1079 May 93


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