Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.6.1.44 (AGT)
 770 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hypertension, a risk factor for many cardiovascular, cerebrovascular, and renal diseases, affects one in four Americans, at an annual cost of>$30 billion. Although genetic mutations have been identified in rare forms of hypertension, including Liddle syndrome and glucocorticoid-remediable aldosteronism, the abundance of plausible candidate genes and potential environmental risk factors has complicated the genetic dissection of more prevalent essential hypertension. To search systematically for chromosomal regions containing genes that regulate blood pressure, we scanned the entire autosomal genome by using 367 polymorphic markers. Our study population, selected from a blood-pressure screen of >200,000 Chinese adults, comprises rare but highly efficient extreme sib pairs (207 discordant, 258 high concordant, and 99 low concordant) and all but a single parent of these sibs. By virtue of the sampling design, the number of sib pairs, and the availability of genotyped parents, this study represents one of the most powerful of its kind. Although no regions achieved a 5% genomewide significance level, maximum LOD-score values were >2.0 (unadjusted P<.001) for regions containing five markers (D3S2387, D11S2019, D15S657, D16S3396, and D17S1303), in our primary analysis. Other promising regions identified through secondary analyses include loci near D4S3248, D7S2195, D10S1423, D20S470, D20S482, D21S2052, PAH, and AGT.
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PMID:An extreme-sib-pair genome scan for genes regulating blood pressure. 1033 Mar 57

We carried out comparison of distribution of alleles and genotypes of polymorphic loci of renin-angiotensin-aldosterone system genes: CYP11B2 (C-344T), AGT (Thr174Met) and REN (C-5434T, C-5312T, and A BglI G) and their combinations in two groups of patients with low renin forms of arterial hypertension (AH). Group 1 included 59 patients with low renin hyperaldosteronism (HA) at the background of glomerular zone adenoma and hyperplasia of adrenal cortex. Group 2 included 28 patients with low renin hypertensive disease characterized by normal level of aldosterone. Complex analysis of carriership of allele and genotype combinations evidence for the difference in genetic nature of two forms of low renin AH. Participation of CYP11B2 and REN and possibly AGT genes in development of low renin AH was convincingly shown.
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PMID:[Contribution of CYP11B2, REN and AGT genes in genetic predisposition to arterial hypertension associated with hyperaldosteronism]. 1826 Sep 94

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