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)

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

Although a chimeric gene combining the 11beta-hydroxylase gene (CYP11B1) and the aldosterone synthase gene (CYP11B2) explains the pathophysiology of familial hyperaldosteronism (FH) type I, the contribution of this abnormality to FH type II has not been tested. We screened genomic DNA from a Japanese family with FH type II for the CYP11B1/CYP11B2 gene. The index patient was a 27-year-old woman with hypertension. Hypokalaemia, elevated plasma aldosterone and suppressed plasma renin activity suggested primary aldosteronism. Though computed tomography failed to reveal an adrenal tumour, left adrenalectomy was indicated due to a high aldosterone concentration in left adrenal venous blood. The resected adrenal gland contained an adenoma. As her mother had also been diagnosed with primary aldosteronism due to an adenoma, we administered oral dexamethasone to our patient before the operation and observed the response of the blood pressure and plasma aldosterone concentration for 2 weeks. Both parameters remained elevated during the treatment period, confirming the diagnosis of FH type II. Total DNA was isolated from blood cells of the index patient, her mother, and an unaffected brother. Samples were amplified by polymerase chain reaction using specific primers from CYP11B1 and CYP11B2. Unique DNA fragments of 1.4 kb were obtained from the index patient and her mother, but not from the healthy subject. The CYP11B1/CYP11B2 chimeric gene was found in a Japanese family with FH type II.
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PMID:A chimeric CYP11B1/CYP11B2 gene in glucocorticoid-insuppressible familial hyperaldosteronism. 1145 62

This study reports the determination of plasma 18-hydroxycortisol (18-OHF) using a new and easy enzyme-linked immunosorbent assay (ELISA) method in primary aldosteronism and compares the values found in essential hypertensives and normotensive controls. In primary aldosteronism, we evaluated usefulness of plasma 18-OHF determination and the dexamethasone suppression test in the diagnosis of glucocorticoid-remediable aldosteronism using the genetic test as the gold standard. We studied 31 primary aldosteronism patients, 101 essential hypertensives, and 102 healthy normotensive controls. The plasma 18-OHF was measured using a biotin-avidin enzyme-linked assay by a new and purified polyclonal antibody. The 18-OHF value in primary aldosteronism was 6.3+/-8.05 nmol/L; this value is significantly higher than the value found in essential hypertensives and normotensive controls (2.81+/-1.42 and 2.70+/-1.41 nmol/L, respectively; P<0.0005). In primary aldosteronism, 4 of 31 patients had 18-OHF levels that were 10 times higher than the normal upper limit (2.983 nmol/L). The dexamethasone suppression test in primary aldosteronism patients was positive (serum aldosterone <4 ng/dL) in 13 of 31 cases. A chimeric CYP11B1/CYP11B2 gene was demonstrated in 4 primary aldosteronism patients, corresponding to the same cases that had higher level of 18-OHF. In conclusion, plasma 18-OHF determination by this ELISA method is reliable for detecting glucocorticoid-remediable aldosteronism, and it does so better than the dexamethasone suppression test.
Hypertension 2001 Sep
PMID:Serum 18-hydroxycortisol in primary aldosteronism, hypertension, and normotensives. 1156 57

Primary aldosteronism (PAL) may be as much as ten times more common than has been traditionally thought, with most patients normokalemic. The study of familial varieties has facilitated a fuller appreciation of the nature and diversity of its clinical, biochemical, morphological and molecular aspects. In familial hyperaldosteronism type I (FH-I), glucocorticoid-remediable PAL is caused by inheritance of an ACTH-regulated, hybrid CYP11B1/CYP11B2 gene. Genetic testing has greatly facilitated diagnosis. Hypertension severity varies widely, demonstrating relationships with gender, affected parent's gender, urinary kallikrein level, degree of biochemical disturbance and hybrid gene crossover point position. Analyses of aldosterone/PRA/cortisol 'day-curves' have revealed that (1) the hybrid gene dominates over wild type CYP11B2 in terms of aldosterone regulation and (2) correction of hypertension in FH-I requires only partial suppression of ACTH, and much smaller glucocorticoid doses than those previously recommended. Familial hyperaldosteronism type II is not glucocorticoid-remediable, and is clinically, biochemically and morphologically indistinguishable from apparently sporadic PAL. In one informative family available for linkage analysis, FH-II does not segregate with either the CYP11B2, AT1 or MEN1 genes, but a genome-wide search has revealed linkage with a locus in chromosome 7. As has already occurred in FH-I, elucidation of causative mutations is likely to facilitate earlier detection of PAL and other curable or specifically treatable forms of hypertension.
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PMID:Familial hyperaldosteronism. 1159 2

The syndrome of primary aldosteronism is characterized by hypertension with excessive production of aldosterone, potassium loss, and suppression of the renin-angiotensin system. The most common clinical subtypes of primary aldosteronism are aldosterone-producing adrenocortical adenoma (APA) and bilateral adrenal cortical hyperplasia (idiopathic hyperaldosteronism, or IHA). It has been reported that renin suppression and aldosterone levels are lower and hypokalemia milder in patients with IHA than in patients with APA. In the present study, we investigated the genetic analysis of aldosterone synthase gene, CYP11B2 in patients with primary aldosteronism and review the recent studies. The chimeric CYP11B1/CYP11B2 gene, which is a candidate gene for glucocorticoid-remediable hyperaldosteronism, was not found in either the DNA from aldosteronoma or in the genomic DNA from patients with APA or IHA. Mutations in the CYP21 or CYP11B1 gene were not present in patients with APA. No mutations in the coding region of the CYP11B2 gene were found in patients with IHA or APA. The level of CYP11B2 messenger RNA (mRNA) was much higher in the aldosteronoma portion than in nonadenomatous portion. The overexpression of CYP11B2 mRNA seen in the mononuclear leukocytes of patients with IHA suggests that unidentified aldosterone-stimulating factors or abnormalities of the CYP11B2 promoter region may cause the overproduction of aldosterone characteristic of IHA. The variants of the CYP11B2 gene may also contribute to dysregulation of aldosterone synthesis and lead to susceptibility to IHA.
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PMID:Genetic alterations in patients with primary aldosteronism. 1167 38

Since the identification of a chimeric aldosterone synthase which induces mendelian hypertension, polymorphisms in aldosterone synthase (CYP11B2) has been one of major targets for molecular analyses in association with hypertension. To date, four polymorphic variants of CYP11B2, -344T/C at promoter region, a gene conversion in intron 2, 2713A/G (in exon 3) which converts from Lys to Arg at codon 173 (K173R), and 4986T/C (in exon7) which converts from Val to Ala at codon 386 (V386A), have been identified in Caucasian population. Then, linkage disequilibrium between -344T/C polymorphism and a gene conversion in intron 2 or K173R mutation has been described, suggesting the presence of genetic haplotypes in Caucasians. Since the presence of a gene conversion in intron 2 or V386A mutation was still unknown in the Japanese population, all these polymorphisms were examined together to determine the CYP11B2 haplotypes of Japanese, using DNA samples from 1290 participants of the Ohasama study, who represent the general population of a rural community of northern Japan. Molecular analyses demon- strated the presence of a gene conversion of intron 2, but the absence of V386A mutation in Japanese population. The complete linkage disequilibrium between -344T/C polymorphism and K173R mutation was noted. Although -344T allele was linked either with a gene conversion in intron 2 or with normal intron 2, -344C allele was completely linked with normal intron 2. These results indicate the presence of 3 allelic haplotypes of CYP11B2, -344C with normal intron 2 and 173R, -344T with normal intron 2 and 173K, and -344T with converted intron 2 and 173K, in the general Japanese population. The frequency (total 1.0) was 0.35, 0.53, and 0.12, respectively. The presence of allelic haplotypes is considered to be an additional genetic information to individual polymorphism of CYP11B2 to determine the linkage between CYP11B2 polymorphisms and hypertension.
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PMID:Haplotypes of aldosterone synthase (CYP11B2) gene in the general population of Japan: the Ohasama study. 1172 5

1. Improved approaches to screening and diagnosis have revealed primary aldosteronism (PAL) to be much more common than previously thought, with most patients normokalaemic. The spectrum of this disorder has been further broadened by the study of familial varieties. 2. Familial hyperaldosteronism type I (FH-I) is a glucocorticoid-remediable form of PAL caused by the inheritance of an adrenocorticotrophic hormone (ACTH)- regulated, hybrid CYP11B1/CYP11B2 gene. Diagnosis has been greatly facilitated by the advent of genetic testing. The severity of hypertension varies widely in FH-I, even among members of the same family, and has demonstrated relationships with gender, degree of biochemical disturbance and hybrid gene crossover point position. Hormone "day curve" studies show that the hybrid gene dominates over wild-type CYP11B2 in terms of aldosterone regulation. This may be due, in part, to a defect in wild-type CYP11B2-induced aldosterone production. Control of hypertension in FH-I requires only partial suppression of ACTH and much smaller glucocorticoid doses than previously recommended. 3. Familial hyperaldosteronism type II (FH-II) is not glucocorticoid remediable and is not associated with the hybrid gene mutation. Familial hyperaldosteronism type II is clinically, biochemically and morphologically indistinguishable from apparently non-familial PAL. Linkage studies in one informative family did not show segregation of FH-II with the CYP11B2, AT1 or MEN1 genes, but a genome-wide search has revealed linkage with a locus in chromosome 7. As has already occurred in FH-I, elucidation of causative mutations is likely to facilitate earlier detection of PAL.
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PMID:Familial varieties of primary aldosteronism. 1190 22

Glucocorticoid remediable hyperaldosteronism (GRA) is a monogenic form of inherited hypertension caused by a chimeric gene originating from an unequal cross-over between the 11 beta-hydroxylase (CYP11B1) and aldosterone synthase (CYP11B2) genes. GRA is characterized by high plasma levels of aldosterone (regulated by ACTH) with suppressed plasma renin activity and the production of two rare steroids, 18hydroxycortisol and 18oxocortisol. Affected patients usually show severe hypertension and an elevated frequency of stroke at a young age. Affected women have a high risk of developing preeclampsia during pregnancy. Here, we describe a 5-generation pedigree from Sardinia in which the presence of the chimeric gene is demonstrated in 4 generations. This family displays a mild phenotype with average blood pressure levels of 131/86 mm Hg for GRA+ patients. The occurrence of stroke is very low, and preeclampsia was not observed in 29 pregnancies from 8 GRA+ mothers. We investigated whether the cross-over site (between the CYP11B1 and CYP11B2 genes) or biochemical characteristics could explain this phenotype. The cross-over site was located at the end of intron 3, in the same region as described in other families. We found a significant correlation between blood pressure and 18hydroxycortisol, 18oxocortisol, and plasma aldosterone levels, but not with kallikrein. However, none of the biochemical or genetic parameters investigated could explain the mild phenotype of the family.
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PMID:Glucocorticoid remediable aldosteronism: low morbidity and mortality in a four-generation italian pedigree. 1210 22


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