UMLS:C0020538 - FACTA Search

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

Aldosterone is synthesized in extra-adrenal tissues, both blood vessels and brain. We undertook the present study to determine whether the rat heart produces aldosterone and to investigate the effects of adrenalectomy, ACE inhibition, and angiotensin II on aldosterone synthesis in the heart. To clarify the pathophysiological role of cardiac aldosterone in the hypertensive heart, we compared the synthesis of aldosterone in the hearts of stroke-prone spontaneously hypertensive rats (SHRSP) with that in Wistar-Kyoto rats. The effects of the aldosterone antagonist spironolactone on myocardial hypertrophy in adrenalectomized SHRSP were also studied. Isolated rat hearts were perfused for 2 hours, and the perfusate was analyzed with HPLC and mass spectrometry. The activity of aldosterone synthase was estimated on the basis of the conversion of [(14)C]deoxycorticosterone to [(14)C]aldosterone. The levels of aldosterone synthase gene (CYP11B2) mRNA were determined with competitive polymerase chain reaction. Aldosterone production, the activity of aldosterone synthase, and the expression of CYP11B2 mRNA were increased in hearts from adrenalectomized rats and rats treated with angiotensin II. ACE inhibitors decreased cardiac aldosterone synthesis. Cardiac aldosterone, aldosterone synthase activity, and CYP11B2 mRNA levels in hearts from 2- and 4-week-old SHRSP were significantly greater than those of age-matched Wistar-Kyoto rats. Spironolactone prevented cardiac hypertrophy in adrenalectomized SHRSP. These results suggest that the rat heart produces aldosterone and that endogenous cardiac aldosterone may affect cardiac function and hypertrophy in hypertension in rats.
Hypertension 2000 Oct
PMID:Cardiac aldosterone production in genetically hypertensive rats. 1104 Feb 25

This study focused on two genes that have previously been implicated in hypertension and may influence renal sodium handling, adducin, and angiotensin I-converting enzyme (ACE). We compared their polymorphic frequencies and interaction in patients with essential hypertension (n=128) and individually age- and gender-matched normotensive control subjects. The alpha-adducin G460W polymorphism was genotyped by DNA amplification and restriction digestion. The ACE I/D polymorphism was assayed by a triple-primer method, with a "nested" polymerase chain reaction primer situated completely within the insertion sequence of the I: allele. The distributions of genotypes and alleles for the two polymorphisms were not significantly different between the case and control populations, and the cross-classification of cases by alpha-adducin and ACE genotype gave a distribution similar to that of control subjects. We have previously reported that the distributions of genotypes for two linked polymorphisms in the aldosterone synthase gene (one in the steroidogenic factor-1 [SF-1] binding site and the other an intronic conversion [IC]) were significantly different between this cohort of essential hypertensives and matched control subjects. The cross-classification of cases by alpha-adducin and SF-1, alpha-adducin and IC, ACE and SF-1, and ACE and IC genotype gave a distribution similar to that of control subjects. Hence, no evidence was found to suggest an association between either the alpha-adducin G460W or the ACE I/D polymorphism and hypertension in a careful case-control study. Furthermore, the alpha-adducin G460W, ACE I/D, and aldosterone synthase SF-1 and IC polymorphisms do not appear to interact in our hypertensive population.
Hypertension 2000 Dec
PMID:alpha-adducin and angiotensin I-converting enzyme polymorphisms in essential hypertension. 1111 13

Recent advances in genetic determination of human essential hypertension (EHT) are discussed by reviewing the candidate genes. Candidate genes have been selected based on genetic information from classical linkage analysis (affected sib-pair analysis) or mendelian hypertension (autosomal dominant inheritance of hypertension). Most of these genes are, directly or indirectly, coupled to salt handling of the kidney, being included in the renin-angiotensin system (RAS), steroid-hormone metabolism, and renal sodium transporters. Angiotensinogen (AGT) gene in RAS was first described as a strong candidate associated with the onset of hypertension, since sib-pair linkage analysis has demonstrated the trait loci for hypertension which includes the coding region for AGT. M235T polymorphism of AGT has been studied extensively in many populations including Japanese, and the results suggest a weak, but significant linkage with hypertension. The presence (insertion [I]) or absence (deletion [D]) of 287bp in intron 16 of angiotensin converting enzyme gene has also been examined in RAS, and the results suggest D polymorphism as a risk factor for hypertension in men. Other components in RAS, such as renin, angiotensinogen II type I receptor, or kallikrein have also been studied, but the available information is still incomplete. Genetic investigations of mendelian hypertension has identified the genetic mechanisms for glucocorticoid remediable aldosteronism, apparent mineral corticoid excess, and Liddle's syndrome as chimeric gene duplications of CYP11B1 (aldosterone synthase gene) and CYP11B2 (11beta-hydroxylase gene), mutations in the gene of 11beta-hydroxysteroid dehydrogenase type 2 that catalyzes the conversion of cortisol to cortisone, and mutations in beta or gamma subunit of epithelial sodium channel (ENaC), respectively. Subsequently, genetic variants of CYP11B2 and beta or gamma subunit of ENaC have been found, suggesting the -344C polymorphism of CYP11B2, 594S variant of betaENaC, and two rare variants of gammaENaC as risk factors for EHT. In spite of the extensive research, haplotypes in individual populations remain to be elucidcated in most candidate genes. Even casual conclusions of possible linkage with EHT need to be further examined with better determinations of phenotypes, such as ambulatory and home blood pressure monitoring or identification of onset of hypertension in cohort studies.
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PMID:Genetic determination of human essential hypertension. 1112 65

Low-renin hypertension is common and usually implies increased retention of sodium (Na(+)). In every case of known etiology, there is a mineralocorticoid-induced increase in number of epithelial Na(+) channels (ENaCs) in the collecting duct of the kidney, leading to a state of "hyperENaCactivity." In primary aldosteronism, a result of either an adrenal adenoma or bilateral adrenal hyperplasia, aldosterone itself mediates the increase in ENaC function. A severe form of low-renin hypertension in which a molecular mutation in ENaC prevents removal of the channel from the cell surface, known as Liddle's syndrome, results in increased net ENaC activity but, in this case, independently of an increase in aldosterone. Glucocorticoid remedial aldosteronism, an autosomal dominant form of primary aldosteronism, results from a "new" or chimeric gene for aldosterone synthase. Adrenocorticotropic hormone stimulates its expression as well as secretion of aldosterone. Apparent mineralocorticoid excess results from a molecular mutation that allows cortisol to bind to the mineralocorticoid receptor. Both glucocorticoid remedial aldosteronism and apparent mineralocorticoid excess result in an increase in the number of ENaCs. The question remains whether low-renin essential hypertension is related to an increase in ENaC activity. Low-renin hypertension is most common in black patients, who tend to have lower levels of aldosterone as well as renin, which are features that resemble those found in Liddle's syndrome. Preliminary findings suggest that black patients with low-renin hypertension who are resistant to standard antihypertensive therapy respond favorably to the addition of spironolactone, a mineralocorticoid receptor antagonist that reduces ENaC activity.
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PMID:Low-renin hypertension: more common than we think? 1117 96

The association between aldosterone synthase (CYP11B2) gene polymorphism and white matter hyperintensities seen on cerebral MRI was studied in a population-based sample of 829 individuals aged 63 to 75 years. The T allele was associated with the risk of severe white matter hyperintensities. Compared with the CC genotype, the adjusted OR for severe white matter hyperintensities was 4.61 (95% CI, 1.46 to 14.55) for the TT genotype and 2.45 (95% CI, 0.81 to 7.46) for the TC genotype in men. This association was independent of hypertension.
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PMID:Aldosterone synthase (CYP11B2) gene polymorphism and cerebral white matter hyperintensities. 1124 25

It was previously shown using Dahl salt-sensitive (S) and salt-resistant (R) rats that a blood pressure quantitative trait locus (QTL) was present on rat chromosome 7. In the present work, this QTL was localized to a region less than 0.54 cM in size on the linkage map using a series of congenic strains. This region was contained in a single yeast artificial chromosome that was 220 kb long. This small segment still contained the primary candidate locus Cyp11b1 (11beta-hydroxylase), but the adjacent candidate genes Cyp11b2 (aldosterone synthase) and Cyp11b3 were ruled out. It is concluded that 11beta-hydroxylase, through its known genetic variants altering the production of 18-hydroxy-11-deoxy corticosterone, is very likely to account for the blood pressure QTL on chromosome 7 in the Dahl rat model of hypertension. This QTL accounts for about 23 mm Hg under the condition of 2% NaCl diet for 24 days.
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PMID:High-resolution mapping of the blood pressure QTL on chromosome 7 using Dahl rat congenic strains. 1124 66

For our understanding of the genetic factors of human essential hypertension, gene polymorphisms have played a significant role as DNA markers in association and linkage studies. We found positive linkages between hypertension and 4 gene polymorphisms including angiotensinogen Met235Thr, angiotensin converting enzyme I/D, aldosterone synthase CYP11B2 T-344C, and endothelial nitric oxide synthase Glu298Asp in the Aomori population. These results suggest that the 4 gene polymorphisms might be genetic risk factors for hypertension in this district. However, there has been a frustration with the inconsistencies of accumulated evidence. Because, the genetic associations tend to vary across race, ethnicity, and ecological states. Thus, the rates of racial inter-mixture can explain regional differences in disease susceptibility. We emphasize that human lineage based analysis across populations may lead to the better understanding of the variability.
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PMID:[Hypertension and gene polymorphisms]. 1130 8

Monitoring of 24-hour ambulatory blood pressure(ABPM), measurements of circulating vasoactive substances and microalbuminuria, and assessment of gene polymorphisms as genetic markers are introduced to detect and evaluate hypertension. Classifications of ABPM based on impact on risks of cardiovascular diseases have been currently available. Plasma level of brain natriuretic peptide(BNP), a cardiac hormone, increases markedly in congestive heart failure, in proportion to its severity, and is evaluated as a potential index of severity of heart failure. In addition, serum level of hepatocyte growth factor(HGF), a member of endothelium specific growth factors, in hypertension might be useful for evaluating the presence of complications and degree of endothelial dysfunction. In diabetes mellitus, onset of microalbuminuria appeared as an important sign of early nephropathy. There is growing evidence that microalbuminuria is an independent predictor of atherosclerosis and premature death in the general population. Current studies have shown that gene polymorphisms including components of the renin-angiotensin-aldosterone system may be possible genetic markers for hypertension and its associated cardiovascular diseases. Our data suggest positive linkages between hypertension and 4 gene polymorphisms including angiotensinogen Met235Thr, angiotensin converting enzyme I/D, aldosterone synthase CYP11B2 T-344C, and endothelial nitric oxide synthase Glu298Asp in the Aomori population.
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PMID:[New techniques and laboratory examinations in the detection and evaluation of hypertension]. 1130 25

Aldosterone synthase (CYP11B2) is a key enzyme in the biosynthesis of aldosterone. Recently, a polymorphism in the 5'-flanking region of the CYP11B2 gene [T(-344)C] has been reported to be associated with blood pressure and plasma aldosterone levels. We investigated the association between this polymorphism and hypertension in a large population-based sample of 4,000 Japanese. The genotype distribution in hypertensive subjects (n=1,535) was compared to that in normotensive subjects (n=2,514). In subjects not receiving antihypertensive medication, the influence of the genotype on blood pressure values adjusted for clinical covariates was analyzed. All analyses were performed separately for men and women. The genotype distribution did not differ between hypertensive and normotensive subjects in either men (frequency of C allele: 30.3% vs. 31.4%, p=0.48) or women (31.5% vs. 31.7%, p=0.93). There were no significant differences in systolic blood pressure, diastolic blood pressure, or pulse pressure among the three genotypes in either men or women who had not received hypertensive medication. Our data suggest that the T(-344)C polymorphism of CYP11B2 is unlikely to influence blood pressure status in the Japanese population.
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PMID:Lack of association between genetic polymorphism of CYP11B2 and hypertension in Japanese: the Suita Study. 1132 68

Three disorders result from mutations involving two closely linked 11 beta-hydroxylase genes. Steroid 11 beta-hydroxylase deficiency results from mutations in CYP11B1. This is a form of congenital adrenal hyperplasia (CAH) characterized by hypertension and signs of androgen excess. Mutations in CYP11B2 cause aldosterone synthase deficiency, an isolated defect of aldosterone biosynthesis. Recombinations between these two genes cause glucocorticoid suppressible hyperaldosteronism, an autosomal dominant form of hypertension.
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PMID:Steroid 11 beta-hydroxylase deficiency and related disorders. 1134 39

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