UMLS:C0085580 - FACTA Search

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Query: UMLS:C0085580 (essential hypertension)
14,686 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. We have recently identified a candidate gene for rat genetic hypertension, termed SA, by identifying an mRNA species that shows markedly higher expression in the kidneys of spontaneously hypertensive rats (SHR) than in those of Wistar-Kyoto rats (WKY). 2. Subsequent genetic co-segregation analyses by ourselves and others indicated that the SA gene locus did indeed influence blood pressure. Moreover, in a preliminary association study, we found an association of a polymorphism of the human SA gene with essential hypertension. 3. Further studies to identify functions of the SA gene products are required before reaching a definite conclusion.
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PMID:Molecular genetics of the SA gene. 788 84

We have recently identified a candidate gene for rat genetic hypertension by identifying an mRNA species that shows markedly higher expression in the kidneys of spontaneously hypertensive rats than in those of Wistar-Kyoto rats. By using a restriction fragment length polymorphism, we carried out cosegregation analyses between the genotype of the SA gene and blood pressure in three F2 cohorts and observed significant effects of the SA gene on blood pressure in all of those cohorts. In the present study, we have isolated a human counterpart of the rat SA gene to investigate the possible association between the human SA gene and human essential hypertension. The deduced amino acid sequence from the isolated human SA cDNA consisted of 578 amino acid residues and had slight homology to a bacterial enzyme, acetyl-coenzyme A synthase. The human gene was mapped to the human chromosome 16 with the use of a rodent/human somatic hybrid cell panel. A restriction fragment length polymorphism was found with the restriction enzyme Pst I, and the allele frequencies were compared between hypertensive and control groups. The hypertensive group consisted of 89 individuals, and the Pst I rare allele (A2 allele) frequency in this group was 0.270. The control group consisted of 81 healthy normotensive individuals whose precise clinical data were available; the A2 allele frequency in this group was 0.09. Significant differences in the frequency of the A2 allele were observed between the hypertensive and control groups (P = .0001). The present findings provide favorable evidence that the SA gene is a candidate gene for human essential hypertension and also provide a starting point for future studies.
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PMID:Human SA gene locus as a candidate locus for essential hypertension. 790 20

SHR (spontaneously hypertensive rat) is the most popular genetic hypertensive model rat. Using the F2 progeny obtained from SHR and normotensive rats, for example, WKY (Wistar-Kyoto rat), many cosegregation studies to find the genes responsible for blood pressure have been done. In this review, we present some studies using F2 rats concerning candidate genes, renin, kallikrein, sodium potassium-ATPase, heat shock protein 70, angiotensin converting enzyme, phospholipase C-delta 1 and SA gene to show whether these genes really associate with blood pressure. We discuss the signification of these genes in the process of producing SHR and stroke-prone SHR from WKY. We hope these studies will lead to identify the mechanism of human essential hypertension.
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PMID:[Cosegregation studies in spontaneously hypertensive rats]. 832 Aug 40

Recent progress in positional cloning strategy has facilitated analysis of genes responsible for multifactorial diseases such as essential hypertension. To overcome heterogeneous characteristics in essential hypertension, several methods have been developed. Among these, linkage analysis using genetic rat models of hypertension is one of the most promising strategies. We performed linkage analysis using the most commonly used hypertensive model rat, the spontaneously hypertensive rat, finding 3 genomic regions on chromosomes 1, 3 and 10 containing the genes with putative responsibility for hypertension. Since a candidate SA gene was known to be located on chromosome 1, we evaluated this genetic locus in human essential hypertension. Unfortunately, the result did not support the major effects of the SA locus in human essential hypertension. However, with this strategy, we can expect that major genes responsible for hypertension will be identified in the near future.
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PMID:[Genetic analysis of responsible genes for essential hypertension]. 912 Sep 93

Acetyl-CoA-Synthetase (ACS) is involved in the production of acetate, a major metabolite in numerous organisms. There are two forms of this enzyme: ADP-forming ACS and ATP-forming ACS. We focus mainly on the AMP-forming ACS gene, which is relatively well conserved in eubacteria, archeaebacteria, and eukaryotes. BLAST searches in databases showed 30 protein sequences significantly related to the ACS. Most of these sequences were identified as ACS but three of them, belonging to the mammalian species, were annotated as another gene named: the SA gene, which is involved in the essential hypertension. The ACS and SA genes probably derived from a duplication of an ancestral gene but have acquired different functions. Six conserved regions of the ACS protein were defined across the three domains of life. While the precise function of the conserved regions remains unknown, they are probably involved in the enzymatic activity. Among eukaryotes, we found a high variability with respect to the number and the position of introns. However, some positions are conserved between fungi and a nematode. A maximum likelihood tree based upon the conserved regions showed that all sequences except the one from B. subtilis, belong to two basic groups: one the SA-like group including sequences from Archaeoglobus fulgidus and Streptomyces coelicolor, and second, the ACS group. The later can be further divided in two parts: a prokaryotic one including eubacteria and an archaebacterium, and a eukaryotic group within which two proteobacterial sequences branch including ACS from the alpha-proteobacterium Rhodobacter capsulatus. Within the eukaryotic group, bootstrap support is very low, but overall the data are consistent with the view that eukaryotes acquired their ACS gene from the ancestors of mitochondria. The localization of this enzyme in eukaryotic mitochondria is the additional evidence in favor of this interpretation.
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PMID:Molecular evolution of the AMP-forming Acetyl-CoA synthetase. 1125 12

Genetic factors have been reported to play an important role in the predisposition to development of pregnancy-induced hypertension (PIH). On the other hand, there is strong evidence that genetic factors play important role in the predisposition to essential hypertension. Recently, the plausible "candidate gene" for the development of hypertension is SA gene. The aim of our study was to assess the association of the SA gene with the susceptibility to PIH. For that purpose, the SA gene A1A2 polymorphism was studied in 124 women (median age 28 yrs) suffering from PIH in comparison with 148 healthy pregnant women (median age 28 yrs). Genotyping was performed using methods based on polymerase chain reaction. In this study we found statistically significant more frequent of genotype A1A1 occurrence in the patients with PIH when compared to healthy pregnant controls. The frequency of A1 allele was also significant higher in PIH in comparison with controls (chi 2 test.) Based upon the results of our study we can suspect that the SA gene Pst1 polymorphism is associated with the predisposition to PIH in caucasian women.
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PMID:[Relationship between SA gene Pst1 polymorphism and predisposition to H-gestosis]. 1204 48

To investigate the relationship between 12 candidate genes responsible for water regulation, sodium metabolism and membrane ion transport and essential hypertension (EH) in the Chinese. Linkage analysis of EH was performed in 95 Chinese nuclear families including 477 subjects using a technique of fluorescence-based gene scanning with 12 microsatellite markers. Markers were selected on the chromosomal regions covering 12 candidate genes responsible for regulating water and sodium metabolism and membrane ion transport. These candidate genes included sodium hydrogen exchanger 3, sodium hydrogen exchanger 5, chloride bicarbonate exchanger 3, sodium calcium exchanger 1, mineralocorticoid receptor, plasma membrane calcium ATPase 2, ATPase,Na/K transporting alpha, a-adducin, SA gene, kidney epithelial sodium channel-gamma, vasopressin receptor 1A, and 11beta-hydroxysteroid dehydrogenase type 2 genes. Two-point non-parametric linkage analysis (NPL), maximum LOD score analysis and transmission/disequilibrium test (TDT) were performed using the GENEHUNTER software package. The NPL analysis and LOD score suggested a significant linkage at D12S398 (Z = 2.08, p<0.05 and LOD score = 1.26, p<0.01, respectively). TDT indicated a significant disequilibrium of transmission at the locus chi2 = 9.00, p < 0.005). No significant linkages were found at the other loci tested (p > 0.05 or LOD < -1). In conclusion, D12S398, a marker near the vasopressin receptor 1A gene (V1AR), showed a positive linkage with EH based on the results of three statistical methods (NPL, LOD score, and TDT). This region warrants further exploration.
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PMID:Linkage analysis of twelve candidate gene loci regulating water and sodium metabolism and membrane ion transport in essential hypertension. 1235 53

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