EC:3.4.23.15 - FACTA Search

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Query: EC:3.4.23.15 (renin)
35,795 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The terminal stages in the synthesis of aldosterone and cortisol are catalysed by the enzymes aldosterone synthase and 11beta-hydroxylase respectively. We have previously reported that polymorphic variation in the 5' promoter region (-344C/T) of the gene encoding aldosterone synthase (CYP11B2) is associated with increased aldosterone metabolite excretion and with hypertension associated with a raised aldosterone to renin ratio (ARR). Additionally, basal and ACTH-stimulated plasma levels of 11-deoxycortisol, the precursor of cortisol, are higher in subjects carrying the T-allelic variant. We have now identified in a family study (573 individuals from 105 extended families ascertained through a hypertensive proband) that excretion of the main metabolite of this steroid (tetrahydro-11-deoxycortisol, THS) is heritable (19.4%) and that the T-allele of CYP11B2 is more strongly associated with higher THS levels than the C-allele. Raised plasma and urinary levels of 11-deoxycortisol suggest that there is relative inefficiency of 11beta-hydroxylation in the zona fasciculata; the P450 enzyme responsible for this step is encoded by the gene CYP11B1, which is highly homologous with and adjacent to CYP11B2. The association of genetic variation in the promoter of CYP11B2 which, in the adrenal cortex, is only expressed in zona glomerulosa, and zona fasciculata 11beta-hydroxylation function is paradoxical. There may be linkage dys-equilibrium between this polymorphism and a quantitative trait locus (QTL) in CYP11B1. Chronic alteration of 11beta-hydroxylase activity may increase ACTH drive to the adrenal cortex, altering the regulation of aldosterone synthesis. This may explain, at least partly, the association between CYP11B2 polymorphisms and hypertension.
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PMID:The impact of polymorphisms in the gene encoding aldosterone synthase (CYP11B2) on steroid synthesis and blood pressure regulation. 1513 24

Primary aldosteronism is a disorder characterized by hypertension and hypokalemia due to aldosterone secretion out of renin-angiotensin control. It is generally caused by aldosterone-producing adenoma or adrenocortical hyperplasia but, in some cases, it is due to genetic alterations. Familial type I hyperaldosteronism is the result of anomalous regulation of aldosterone secretion from ACTH (which normally regulates cortisol synthesis). Aldosterone hypersecretion can be suppressed by exogenous glucocortcoids such as dexamethasone. This autosomal dominant disorder is caused by unequal cross-over between two genes with wide sequence homology: CYP11B1 and CYP11B2. The hybrid gene is the product of fusion between the ACTH-responsive regulatory portion of the 11b-hydroxylase gene (CYP11B1) and the coding region of the aldosterone synthase gene (CYP11B2). Familial type I hyperaldosteronism is a disease with incomplete penetration and variable expressivity, especially in relation to hypertension. The marked variability in hypertension severity can mirror an interaction between the hybrid gene and other hereditary factors involved in the regulation of blood pressure. Familial type II hyperaldosteronism is another autosomal dominant form of hyperaldosteronism due to aldosterone hyper-secretion not suppressible by dexamethasone. This disorder is unrelated to mutation of the hybrid gene. The genetic cause of type II hyperaldosteronism is presently unknown, but a genome-wide search has revealed that the disorder is linked with a locus on chromosome 7 in a region that corresponds to cytogenetic band 7p22.
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PMID:[Familial hyperaldosteronism]. 1535 48

Reduced adrenal 11 beta-hydroxylation has been associated with an aldosterone synthase (CYP11B2) polymorphism. The 11 beta-hydroxylase gene (CYP11B1) lies close to CYP11B2. We hypothesize that a molecular variant in CYP11B2 is in linkage disequilibrium (LD) with a key quantitative trait in CYP11B1 determining this phenotype. Polymorphisms and inferred haplotypes at CYP11B loci were studied in two independent populations from Europe (n = 100) and South America (n = 99). The latter underwent detailed hormonal studies. LD was estimated by alternative Bayesian methods for inferring the extent of LD when haplotypes at different loci are inferred. Population differences in single nucleotide polymorphisms were modest, indicating the stability of both genes across populations. Using five of nine potentially informative loci at CYP11B sites with allele frequency greater than 0.1, two major contrasting haplotypes, CwtCG and TconvGTA, were found. In both populations the CwtCG haplotype accounted for 44% and the TconvGTA for 32% of subjects. Haplotype distribution did not differ between Europeans and South Americans (chi(2) = 2.81; P = 0.09). In vivo 11 beta-hydroxylase activity, estimated from urinary steroid profiling, was lower in subjects with an increased aldosterone to renin ratio or with the TconvGTA haplotype. These findings indicate that genotypes at the CYP11B locus are in strong LD and that identified haplotypes predict 11 beta-hydroxylase activity.
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PMID:CYP11B2-CYP11B1 haplotypes associated with decreased 11 beta-hydroxylase activity. 1550 9

The so-called essential hypertension is not a single entity but a mixed bag with several polygenic quantitative traits acting in concert in different combinations in different individuals. This review collates all published information from different centres using different approaches to identify candidate genes in human hypertension. 1) gene targeting approach in animal models of HT (Smithies and Maeda, 1995); 2) identification of 874 candidate SNPs in 75 candidate genes for human HT (Halushka et al, 1999); 3) comparative genomic approach translating QTLs between rat and human HT, to identify 26 chromosome regions on 16 autosomes (Stoll M et al, 2000); 4) Ten centimorgan genome-wide scan done on 2010 affected sibling pairs drawn from 1599 severely hypertensive families (Caulfield et al, 2003). The molecular mechanisms of various molecules involved in the homeostasis of blood pressure are discussed. NO, O2, PG12, EDHF, endothelin, IL-6, selectin, phospholipase A2G1B, BH4, SOD, IRS-1, adrenomedullin, PAMP, CGRP, ANP, bradykinin and bombesin; adducin alpha, beta, gamma, SAH, renin, angiotensinogen. angiotensin II, aldosterone CYP11B1, mineralocorticoid receptors, 11betaHSD, DBH, PNMT, beta2adrenoreceptors, and genes related to ion transport-sodium-lithium cotransporters, ENaC, NaCl cotransporters NKCC2, KCNJ and NaKATPase. Altered gene expression in fetus due to maternal malnutrition also "programmes" for adult hypertension.
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PMID:Hypertension: molecular approach. 1563 21

The mechanism of overproduction of aldosterone in primary aldosteronism is unclear. The intraadrenal renin-angiotensin system (RAS) has been suggested to possess the functional role of the synthesizing aldosterone and regulating blood pressure. In order to clarify the pathophysiological roles of adrenal RAS in aldosterone-producing adenoma (APA), we studied the expressions of the messenger RNAs (mRNAs) of renin, angiotensinogen, type 1 (AT1R) and type 2 angiotensin II receptor (AT2R), CYP11B1 (11 beta-hydroxylase gene) and CYP11B2 (aldosterone synthase gene) in 8 patients with angiotensin II-responsive (ATII-R) APA and compared them with the expressions of the same mRNAs in 8 patients with angiotensin II-unresponsive (ATII-U) APA. Quantification of the mRNA of each gene was done using a real-time polymerase chain reaction with specific primers. There were no significant differences between ATII-R APA and ATII-U APA in the mRNA levels of renin, angiotensinogen, AT1 R, CYP11B1 and CYP11B2. The amount of AT2R mRNA was significantly higher in the patients with ATII-R APA than in those with ATII-U APA (p<0.05). These results may suggest that AT2R partially contributes to the overproduction of aldosterone in ATII-R APA.
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PMID:Pathophysiological roles of the adrenal renin-angiotensin system in patients with primary aldosteronism. 1671 48

Aldosterone plays essential roles in body fluid and electrolyte homeostasis and blood pressure. However, the association between polymorphisms in the CYP11B2 gene and hypertension is controversial. We resequenced CYP11B1 and CYP11B2 and identified 35 polymorphisms in this region. We performed association studies between the plasma aldosterone concentration and 13 polymorphisms in this region in 1443 subjects. The subjects were all obtained from the Suita Cohort Study. Multiple regression analysis indicated that aldosterone levels were determined by renin activity, age, total cholesterol, and hematocrit. Residuals of the aldosterone levels after adjusting for these confounding factors were nominally associated with the T(-344)C (P=0.0026), C(595)T (P=0.0180), -(4837)C (P=0.0310), and G(4936)A (P=0.0498) polymorphisms. Only the T(-344)C polymorphism was significantly associated with the aldosterone level after a correction for multiple testing (Bonferroni). A significant interaction was observed between the T(-344)C polymorphism and renin activity in determining aldosterone levels. Moreover, a significant interaction was observed in 2063 subjects between urinary sodium excretion, which reflects sodium intake, and the T(-344)C polymorphism in determining systolic blood pressure. Only subjects with the TT genotype showed a positive correlation between urinary sodium excretion and systolic blood pressure. In vitro experiments confirmed the functional significance of this T(-344)C polymorphism in terms of angiotensin II reactivity. Thus, the T(-344)C polymorphism in CYP11B2 appears to affect salt sensitivity in Japanese and to have clinical significance.
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PMID:Polymorphism of CYP11B2 determines salt sensitivity in Japanese. 1729 72

Congenital adrenal hyperplasia due to steroid 11beta-hydroxylase deficiency is a genetic disorder of steroidogenesis, transmitted as an autosomal recessive trait. It is associated with low renin hypertension, hypokalemia, hyperandrogenemia and genital ambiguity in affected females. Mutations in the CYP11B1 gene, causing 11beta-hydroxylase deficiency in the zona fasciculata in the adrenal cortex, have been identified. The indicators of congenital adrenal hyperplasia caused by 11beta-hydroxylase deficiency, include increased serum concentrations of desoxycorticosterone, 11 deoxycortisol and delta4-androstenedione, and suppressed plasma renin concentrations. The disorder is treated by administration of glucocorticoids.
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PMID:Steroid 11beta- hydroxylase deficiency congenital adrenal hyperplasia. 1829 61

High level of clinical and genetic heterogeneity is a characteristic of arterial hypertension (AH) that is one of the most wide-spread cardiovascular diseases. In most cases (excluding a few monogenic forms), AH is a polygenic disease and genes of renin-angiotensin-aldosterone system play an important role in AH predisposition. 20-25% AH cases occur during low activity of renin in blood plasma (low-renin form of AH) while aldosterone production can be increased (hyperaldosteronism, HA) or normal. We examined polymorphism of genes that code the renin-angiotensin-aldosterone system components in the groups of low-renin forms of AH, namely, primary HA, idiopathic HA and AH with normal level of aldosterone. For all HA cases, the absence of chimeric CYP11B2/CYP11B1 gene that is a cause for monogenic disease--amilial HA of first type, was shown. A comparison of distributions of alleles and genotypes of polymorphous regions of genes: CYP11B2 (C-344T), REN (C-5434T, C-5312T and A BglI G), AGT (Thr174Met), ACE (I/D), CMA (G-1903A), AT2R1 (A1166C) and of their combinations is the groups described above was done. The analysis of carriership of the alleles and genotypes combinations of the polymorphous regions has shown that genes CYP11B2, REN, ACE, CMA andA T2R1 participate in development of low-renin HA. The results are evidence of similarities and some definite differences in genetic nature of the different forms of low-renin AH and, to say more widely, argue that the investigation of genetic predisposition for clinically heterogeneous forms of polygene diseases by comparison of groups of patients, separated in accordance with peculiarities of disease course, holds much promise for their hereditary background understanding.
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PMID:[Comparative genetic analysis of different forms of low-renin arterial hypertension]. 1885 58

Congenital adrenal hyperplasia (CAH) due to steroid 11-beta hydroxylase deficiency (11beta-OHD) is a rare genetic disorder of steroidogenesis transmitted as an autosomal recessive trait. We describe a new case of 11beta-OHD CAH caused by compound heterozygosity for a novel mutation in intron 7 and previously described mutation in exon 8 of CYP 11B1 gene. A 2.5-year-old boy of Croatian descent presented with accelerated growth and bone age, borderline hypertension, and pseudoprecocious puberty. Hormonal studies established diagnosis of 11beta-OHD: elevated plasma levels of 11-deoxycortisol, 17-hydroxyprogesterone, androstenedione and testosterone, low levels of cortisol and aldosterone, and suppressed plasma renin activity. Sequencing of the CYP11B1 gene identified compound heterozygous mutation consisting of a novel splicing mutation in intron 7 (IVS 7DS+4A to G) and R448H mutation in exon 8 previously reported mostly in Moroccan Jews. This is the first patient with CAH due to 11beta-OHD in Croatia (and Slavic population in general) in whom molecular diagnosis of CYP11B1 gene was performed.
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PMID:Steroid 11-beta hydroxylase deficiency caused by compound heterozygosity for a novel mutation in intron 7 (IVS 7 DS+4A to G) in one CYP11B1 allele and R448H in exon 8 in the other. 2002 93

Hyperaldosteronism is associated with elevated cardiovascular risk. Using mineralocorticoid receptor antagonists a significant reduction in mortality was archived in patients with heart failure. In addition, in refractory hypertension and in patients with metabolic syndrome aldosterone seems to play an important role. Therapy with mineralocorticoidreceptor (MR) antagonists is feasible when aldosterone levels are elevated, in particular in patients with aldosterone-escape. Of particular interest is primary aldosteronism (PA). PA is one of the major causes of secondary hypertension. Since most patients with PA present with normokalemia screening has to be performed using the aldosterone renin ratio, in particular patients with refractory hypertension, young hypertensive patients and patients with incidentaloma. One has to point out that drugs that interfere with the aldosterone-renin-aldosterone-system need to be discontinued or changed. After successful screening, confirmatory testing (e.g. i.v. salt suppression test) has to follow. In order to differentiate between unilateral and bilateral disease computed tomography and adrenal vein sampling are performed. While unilateral adenomas can be cured surgically, bilateral adrenal hyperplasia is treated with MR-antagonists. In case of positive family history for PA one should consider familiar hyperaldosteronism (FH). Three forms are currently defined--FH type I, type II and type III. A hybrid gene consisting of CYP11B1 and CYP11B2 that produces aldosterone in an ACTH dependant manner can be found in FH type I. Diagnosis is verified by long range PCR. No underlying monogenetic cause for FH II and FH II could be detected so far. Through mechanisms way more than water and salt regulation, hyperaldosteronism can negatively influence cardiovascular mortality and morbidity and should therefore play an important part in diagnosis and therapy of arterial hypertension.
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PMID:[The role of aldosterone in hypertension]. 2021 71

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