Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0085580 (essential hypertension)
14,686 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

(1) Decreased 11 beta-OHSD activity permits binding of cortisol to the Type I (mineralocorticoid) receptor in humans, thereby producing spironolactone-inhibitable Na+ retention, hypokalemia and hypertension, the syndrome of apparent mineralocorticoid excess (AME). (2) Blockade of either the Type I receptor with spironolactone or the Type II (glucocorticoid) receptor with RU-486 does not consistently abolish the effects of stress level cortisol on Na+ retention and hypertension in acute studies in normal humans, suggesting the existence of an additional glucocorticoid receptor. (3) Enhanced glucocorticoid 6 beta-hydroxylation could play an etiologic role in certain hypertensive syndromes. (4) Both decreased 11 beta-OHSD and increased 6 beta-OHase are candidates as intermediate phenotypes for the remote phenotype essential hypertension.
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PMID:When is cortisol a mineralocorticoid? 147 63

Glucocorticoids raise blood pressure but were thought not to play a pathophysiological role in essential hypertension when it was demonstrated that cortisol secretion rates and circulating concentrations are normal in this disease. However, recent observations suggest that increased tissue sensitivity to cortisol, mediated by either abnormal glucocorticoid receptors or impaired inactivation of cortisol by 11 beta-dehydrogenase, may allow cortisol to raise blood pressure despite normal circulating concentrations. We studied 11 patients with essential hypertension and 11 matched normotensive control subjects. Dermal vasoconstriction after topical application of both cortisol (16 +/- 4 versus 32 +/- 5 U, control subjects versus hypertensive patients; P < .02) and beclomethasone dipropionate (75 +/- 10 versus 100 +/- 7 U; P < .05) was increased in the hypertensive patients. Hypothalamic-pituitary glucocorticoid receptor sensitivity was normal, as judged by basal cortisol secretion rates and suppression of plasma cortisol during sequential overnight dexamethasone suppression tests. 11 beta-Dehydrogenase activity was impaired in essential hypertension, as judged by prolonged half-lives of [11 alpha-3H]cortisol (44 +/- 4 versus 58 +/- 4 minutes, control subjects versus hypertensive patients; P < .02). However, this did not correlate with the dermal vasoconstrictor response. We conclude that vasoconstrictor sensitivity to glucocorticoids is increased in essential hypertension and that this may initiate and/or sustain the increased peripheral vascular resistance that characterizes this disease. The mechanism of increased sensitivity remains uncertain, but it will be important to establish whether it relates to genetic abnormalities of the glucocorticoid receptor that have been observed in animal models and young individuals who are predisposed to essential hypertension.
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PMID:Increased vasoconstrictor sensitivity to glucocorticoids in essential hypertension. 856 40

1. The role of genetically determined changes in adrenal steroid production, metabolism and action in the pathogenesis of cardiovascular disease in man is considered by studying three loci that are important in corticosteroid function. 2. Variation at the glucocorticoid receptor locus can be identified as a biallelic restriction fragment length polymorphism (Bcl1); subjects with contrasting genotypes show altered skin vasoconstrictor responses to topically applied budesonide without any significant change in leucocyte receptor binding characteristics. 3. In a case control study of patients with essential hypertension, we have shown evidence of reduced 11 beta-hydroxysteroid dehydrogenase activity, with an elevated ratio of cortisol to cortisone metabolites in urine. 4. The genes encoding 11 beta-hydroxylase and aldosterone synthase are highly homologous. Studies in the Milan hypertensive rat show variation at this locus, which may account for the increased steroid synthesis noted in the hypertensive strain; in man, a chimaeric gene comprising 5' regulatory regions from 11 beta-hydroxylase and 3' coding sequence from aldosterone synthase accounts for the autosomal dominant condition Dexamethasone Suppressible Hyperaldosteronism. Variation in the precise location of the crossover site between the two genes does not account for the observed phenotypic heterogeneity in this condition. 5. Measurement of basal plasma steroid levels in subjects with essential hypertension show an increased ratio of 11-deoxycortisol/cortisol, consistent with reduced activity of 11 beta-hydroxylase in the zona fasciculata. 6. In summary, three loci involved in corticosteroid synthesis, metabolism and action can independently affect cardiovascular phenotypes; their roles in determining pathophysiological changes, including hypertension, remain to be studied.
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PMID:Corticosteroids in essential hypertension: multiple candidate loci and phenotypic variation. 871 73

There are striking similarities between Cushing's syndrome and the 'metabolic syndrome X' since both are characterised by hypertension, insulin resistance, glucose intolerance, hyperlipidaemia, and central obesity. The possibility that cortisol contributes to the associations between multiple risk factors for cardiovascular disease was rejected when it was demonstrated that there was no elevation in cortisol secretion or circulating concentration in patients with essential hypertension or type 2 diabetes mellitus. However, in recent years the enormous variability in tissue sensitivity to cortisol has become apparent. We have measured tissue sensitivity to glucocorticoids using an assay of skin vasoconstriction and have demonstrated its relationship with high blood pressure, insulin resistance, glucose intolerance, and hypertriglyceridaemia. Our data suggest that the increase in dermal glucocorticoid sensitivity is not a secondary phenomenon and may be explained by increased glucocorticoid receptor affinity together with impaired inactivation of cortisol by 11 beta-hydroxysteroid dehydrogenase. Importantly, we have not found that enhanced peripheral glucocorticoid sensitivity is associated with compensatory suppression of cortisol secretion, so that the maintenance of normal circulating cortisol concentrations in patients with cardiovascular risk factors may be paradoxical and inappropriate.
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PMID:Abnormal glucocorticoid activity in subjects with risk factors for cardiovascular disease. 896 30

We compared glucocorticoid receptor binding characteristics and glucocorticoid responsiveness of human mononuclear leukocytes (HML) from hypertensive patients and matched normotensive volunteers. We also considered associations of these variables with plasma renin activity, aldosterone, cortisol, corticotropin, and electrolyte concentrations. We calculated binding affinity (Kd; nmol/L) and capacity (Bmax; sites/cell) for dexamethasone and cortisol from homologous and heterologous competition curves for specific [3H]dexamethasone binding sites on HML isolated from the blood of normotensive volunteers and subjects with essential hypertension. Glucocorticoid responsiveness of HML was evaluated as IC50 values (nmol/L) for dexamethasone and cortisol for the inhibition of lysozyme release. We measured plasma hormones by radioimmunoassay. Kd values (mean+/-SE) for cortisol in HML of hypertensive patients were higher than in control subjects (24.6+/-2.4 versus 17.5+/-1.7 nmol/L, P<.04). Binding capacity (4978+/-391 versus 4131+/-321 sites/cell), Kd values for dexamethasone (6.7+/-0.5 versus 5.7+/-0.3 nmol/L), and IC50 values for dexamethasone (3.4+/-0.3 versus 3.1+/-0.2 nmol/L) and cortisol (12.2+/-1.6 versus 9.5+/-0.3 nmol/L) were not significantly different. Patients with renin values less than 0.13 ng angiotensin I/L per second were markedly less sensitive to cortisol than those with higher values. Both Kd (30.3+/-2.5 versus 19.2+/-2.4 nmol/L) and IC50 values (15.5+/-1.8 versus 8.9+/-1.2 nmol/L) for cortisol were significantly higher in patients with lower renin values (P<.03). Other variables, including plasma hormone and electrolyte values and binding characteristics for dexamethasone, were not different. These data suggest that cortisol binding to glucocorticoid receptor is slightly impaired in patients with essential hypertension. In vivo, this could lead to inappropriate binding of cortisol to mineralocorticoid receptors. Hence, decreased sensitivity to cortisol is associated with renin suppression. This hypothesis is supported by evidence of hypertension and low renin activity, which others have described in patients with primary glucocorticoid resistance due to mutations of the glucocorticoid receptor.
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PMID:Impaired cortisol binding to glucocorticoid receptors in hypertensive patients. 936 87

The association between hypertension and insulin resistance might be explained by increased activity of the principal glucocorticoid, cortisol. Recent data show that the intensity of dermal vasoconstriction after topical application of glucocorticoids is increased in patients with essential hypertension. In this report, we examine whether increased glucocorticoid sensitivity or secretion is associated with insulin resistance and is a cause or consequence of hypertension. We studied 32 men (aged 47 to 56 years) from a cross-sectional study and 105 men (aged 23 to 33 years) in whom predisposition to high blood pressure has been defined by their own blood pressure and the blood pressures of their parents. In both populations, increased dermal glucocorticoid sensitivity was associated with relative hypertension, insulin resistance, and hyperglycemia. In young men with higher blood pressure whose parents also had high blood pressure, enhanced glucocorticoid sensitivity was accompanied by enhanced secretion of cortisol, enhanced ligand-binding affinities for dexamethasone in leukocytes, and impaired conversion of cortisol to inactive metabolites (cortisone and 5beta-dihydrocortisol). Increased tissue sensitivity to cortisol, amplified by enhanced secretion of cortisol, is a feature of the familial predisposition to high blood pressure rather than a secondary effect of high blood pressure. It may be mediated by an abnormal glucocorticoid receptor, and it may contribute to the association between hypertension and insulin resistance.
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PMID:Increased glucocorticoid activity in men with cardiovascular risk factors. 953 10

Suggestive evidence has been obtained in a "4-corners" study for involvement of the glucocorticoid receptor gene (GRL) in genetic variation in blood pressure. Therefore, we tested markers at the GRL locus for association and linkage with essential hypertension (HT). For the association study, we used a well-characterized group of 129 white Australians of Anglo-Celtic extraction who had HT, a strong family history of HT (2 parents with the disease), and early-onset moderate-to-severe disease. Controls were 195 normotensive white subjects whose parents were normotensive past the age of 50 years. For the linkage study, we used 175 sibling pairs of similar ancestry. The case-control groups were genotyped for an Asn363Ser variant in exon 2, a G/T variant in intron 4, and a microsatellite marker (D5S207) tightly linked (<200 kb) to GRL. For the groups as a whole, no association or linkage was observed after analysis of data by a variety of statistical tests. Analysis of sibling-pair data gave an exclusion score of -3.8 for the logarithm of the odds for linkage, indicating significant nonlinkage. However, in females, weak association of the intron 4 polymorphism with HT (P=0.03), as well as with systolic and diastolic blood pressure in all subjects (P=0. 04 and 0.03), was observed, and in the case of the D5S207 marker, association with HT was apparent in males (P=0.0001). Thus, although our results provide no overall support for GRL in HT etiology, apparent gender-specific associations could exist in this genomic region, possibly reflecting correlated occurrence with (an)other metabolic syndrome disorder(s).
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PMID:Association and linkage analyses of glucocorticoid receptor gene markers in essential hypertension. 1060 Nov 16

Abnormalities of mineralocorticoid synthesis and/or metabolism profoundly affect the regulation of electrolyte and water balance and of blood pressure. Characteristic changes in extracellular potassium, sodium and hydrogen ion concentrations are usually diagnostic. Serious deficiency may be acquired, for example in Addison's disease, or inherited. In most of the inherited syndromes, the precise molecular changes in specific steroidogenic enzymes have been identified. Mineralocorticoid excess may be caused by aldosterone or 11-deoxycorticosterone by inadequate conversion of cortisol to cortisone by 11beta-hydroxysteroid dehydrogenase type 2 in target tissues (see Chapter 4), by glucocorticoid receptor deficiency or by constitutive activation of renal sodium channels. Changes in electrolyte balance and renin as well as the abnormal pattern of corticosteroid metabolism are usually diagnostic. Where these abnormalities are inherited (e.g. 11beta- or l7alpha-hydroxylase deficiencies, glucocorticoid remediable hyperaldosteronism (GRA), receptor defects, Liddle's syndrome), the molecular basis is again usually known and, in some cases, may provide the simplest diagnostic tests. Primary aldosteronism, although readily identifiable, presents problems of differential diagnosis, important because optimal treatment is different for each variant. Moreover, the mechanisms by which the variants develop are poorly understood. Finally, a significant proportion of patients with essential hypertension show characteristics of mild mineralocorticoid excess, for example low renin levels. Is this relevant to pathophysiology and, if so, is the effect induced via classic mechanisms of action or through newly discovered direct actions on the brain, heart and blood vessels? These questions are the subject of current research.
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PMID:Disorders of mineralocorticoid synthesis. 1146 10

The results of many studies performed on animals and humans strongly suggest that genetic factors lead to the development of hypertension (HT). Syndromes in which mutations in single genes are sufficient to result in large changes of blood pressure are rare. Nevertheless, it is anticipated that their understanding will lead to new insights into forms of hypertension occurring more often, including essential hypertension. At least 9 monogenic forms of HT including Liddle syndrome, type I familial hyperaldosteronism (GRA) and type II familial hyperladosteronism, Gordon syndrome, apparent mineralocorticoid excess syndrome (AME), hypertension associated with type E brachydactyly, glucocorticoid receptor mutations, type IV congenital adrenal hyperplasia (CAH) (11 beta-hydroxylase deficiency), and type V CAH (17 alpha-hydroxylase deficiency) have been described so far.
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PMID:[Monogenic hypertension]. 1505 25

Hypertension is a serious health problem particularly for African-Americans. Previous studies have suggested that angiotensinogen (AGT) gene locus is involved in human essential hypertension. We have recently shown that an A/G polymorphism at -217 in the promoter of the AGT gene is associated with essential hypertension especially in African-Americans. We report here that A/G polymorphism at -217 affects the glucocorticoid-induced promoter activity of the human AGT gene. We show that recombinant glucocorticoid receptor (GR) binds strongly to the AGT gene promoter when nucleoside A is present at -217, and dexamethasone treatment increases the interleukin 6 induced promoter activity of reporter constructs containing nucleoside A at -217. Similarly cotransfection of GR and C/EBP beta or C/EBP delta increases the promoter activity of reporter construct containing nucleoside A at -217. Since AGT is an acute phase protein, we propose that increased expression of -217A allele of the AGT gene by glucocorticoids and C/EBP family of transcription factors may be involved in essential hypertension.
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PMID:A single-nucleotide polymorphism in human angiotensinogen gene is associated with essential hypertension and affects glucocorticoid induced promoter activity. 1563 May 92


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