Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0085580 (essential hypertension)
 14,686 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Previous studies on genetic rat hypertension have shown that polymorphism within the alpha-adducin gene may regulate blood pressure. Adducin is a cytoskeletal protein that may be involved in cellular signal transduction and interacts with other membrane-skeleton proteins that affect ion transport across the cell membrane. There is a high homology between rat and human adducin and pathophysiological similarities between the Milan hypertensive rat strain and a subgroup of patients with essential hypertension. Thus, we designed a case-control study to test the possible association between the alpha-adducin locus and hypertension. One hundred ninety primary hypertensive patients were compared with 126 control subjects. All subjects were white and unrelated. Four multiallelic markers surrounding the alpha-adducin locus located in 4p16.3 were selected: D4S125 and D4S95 mapping at 680 and 20 kb centromeric, and D4S43 and D4S228/E24 mapping at 660 and 2500 kb telomeric. Alleles for each marker were pooled into groups. Comparisons between control subjects and hypertensive patients were carried out by testing the allele-disease association relative to the marker genotype. The maximal association occurred for D4S95 (chi 2(1) 13.33), which maps closest to alpha-adducin. These data suggest that a polymorphism within the alpha-adducin gene may affect blood pressure in humans.
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PMID:Association of the alpha-adducin locus with essential hypertension. 787 56

Human essential hypertension is a polygenic disease whose phenotypic expression is modulated by the environment. Though the kidney could play a major role in the initiation and maintainment of hypertension, many questions remain open. Rat models of primary hypertension provided the substantial information with experiments on kidney cross-transplantation, showing that at least a portion of hypertension could be transplanted with the kidney in all strains where such an experiment has been carried out. Data consistent with those of rats have also been obtained in humans. Many abnormalities in kidney function and cell membrane ion transport have been described in hypertensive rats and humans, but the logical sequence of events from a genetic-molecular abnormality to a cellular abnormality which causes hypertension via a modification of kidney function is difficult to prove. We established this sequence in Milan hypertensive rats using a variety of experimental techniques such as the study of isolated kidney and renal cell function, cell membrane ion transport, cross-immunisation with membrane proteins, molecular biology, genetic crosses and manipulation. Such study led to the identification of a polymorphism in the cytoskeletal protein adducin. Recently, alpha-adducin variants have been associated to both primary hypertension and salt sensitive hypertension. Finally, recent findings strongly support the hypothesis that adducin variants may affect kidney function by modulating the overall capacity of the tubular epithelial cells to transport ions through both a modification in the assembly of actin cytoskeleton, and a modulation of sodium pump activity.
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PMID:Genetic determinants and renal mechanisms in essential hypertension. 900 89

Human essential hypertension is a polygenic disease whose phenotypic expression is modulated by the environment. Though the kidney could play a major role in the initiation and maintainment of hypertension, many questions remain open. Rat models of primary hypertension provided the substantial information with experiments on kidney cross-transplantation showing that at least a portion of hypertension could be transplanted with the kidney in all strains where such experiment has been carried out. Data consistent with those of rats have also been obtained in humans. Many abnormalities in kidney function and cell membrane on transport have been described in hypertensive rats and humans but the logical sequence of events going from a genetic-molecular abnormality to a cellular abnormality which causes hypertension via a modification of kidney function is difficult to prove. We established this sequence in Milan hypertensive rats using a variety of experimental techniques such as the study of isolated kidney and renal cell function, cell membrane ion transport, cross-immunisation with membrane proteins, molecular biology, genetic crosses and manipulation. Such study led to the identification of a polymorphism in the cytoskeletal protein adducin and to the demonstration of its role in blood pressure control. Recently, alpha-adducin variants have been associated to both human primary hypertension and salt sensitive hypertension. Finally, recent findings strongly support the hypothesis that adducin variants may affect kidney function by modulating the overall capacity of the tubular epithelial cells to transport ions through both a modification in the assembly of actin cytoskeleton, and a modulation of sodium pump activity.
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PMID:Renal genetic mechanisms of essential hypertension. 937 22

Significant linkage and association of alpha-adducin, a cytoskeleton protein involved in transmembrane ion transport, with essential hypertension were recently shown in Caucasian populations, especially in relation to salt sensitivity. The present study investigated the relevance of this candidate gene to hypertension in a well-characterized Japanese population. A total number of 507 individuals were selected from clinic outpatients. Hypertensive subjects were defined on the basis of the individual's blood pressure readings before starting medications; the criteria included systolic blood pressure > or = 160 mm Hg and/or diastolic blood pressure > or = 95 mm Hg. Patients with diabetes mellitus, renal failure, and secondary forms of hypertension had been excluded. Control subjects had blood pressure values < 130/85 mm Hg. The allele frequency of a genetic variant at amino acid residue 460 of alpha-adducin (460Trp) was compared between cases and control subjects with chi(2) statistics; in addition, the association was tested with blood pressure as a continuous variable. No significant association was found in either of the statistics tested. The 460Trp variant appeared to be relatively common in the Japanese (54% to 60%) compared with a reported prevalence of 13% to 23% in Caucasians. The present study brought up an important issue concerning the pathophysiological role of alpha-adducin in non-Caucasian populations, given the likely ethnic variation in the nature of genetic susceptibility loci. The 460Trp variant of the alpha-adducin gene is unlikely to have a major effect on susceptibility to hypertension in the Japanese population studied, although the present study does not exclude the involvement of alpha-adducin in the pathogenesis of hypertension.
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PMID:Lack of association between the alpha-adducin locus and essential hypertension in the Japanese population. 949 54

Essential hypertension affects approximately 20% of the adult population, and has a multifactorial origin arising from an interaction between susceptibility genes and environmental factors. The understanding of the molecular basis of essential hypertension may provide us with new and more specific pharmacological agents, and perhaps the ability to individualise treatment and maximise the reduction in risk of morbidity and mortality from cardiovascular disease. Hypertension due to single gene abnormalities is very rare; however, it follows a Mendelian model of inheritance and therefore can be identified successfully using family linkage studies. Since clear Mendelian models of inheritance cannot readily be assigned in essential hypertension as there may be variable penetrance of susceptibility genes, other studies with designs based on affected sibling pairs, family-based association studies and case-control studies have been performed. The renin-angiotensin system (RAS) plays an integral part in the control of blood pressure, and genetic polymorphisms within this system and their effect on the response to antihypertensive therapy are now being studied. Polymorphisms of the angiotensin converting enzyme (ACE) gene, although associated with left ventricular hypertrophy, do not appear to have a clear association with hypertension. Studies on the association of genotype with response to antihypertensive therapy are less consistent for genetic polymorphisms of the RAS. Although some of the results are positive, patient numbers have been small in the studies completed to date. Genetic polymorphisms of the adrenergic receptors have been associated with blood pressure variation in African-Americans, White Americans and African-Caribbeans. A beta 2-adrenoceptor polymorphisms exhibits agonist-mediated receptor downregulation which may lead to enhanced peripheral vasoconstriction. Therapeutic studies have not yet been completed on patients with this genotype. A further polymorphism of the alpha-adducin gene has been associated with essential hypertension. This may influence blood pressure response to sodium loading/depletion and response to long term treatment with a thiazide diuretic, but further studies are needed to clarify this. Antisense oligonucleotides targeted against genes of the RAS, e.g. angiotensinogen and the angiotensin type 1 receptor, are being modified to improve targeting and thereby reduce toxicity. However, gene therapy is unlikely to replace pharmacological therapy in the foreseeable future. The immediate goal should be to enhance our understanding of the genetic nature of essential hypertension based on the interaction of genetic makeup with the environment, with a view to individualising antihypertensive therapy.
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PMID:Genetics of hypertension. Therapeutic implications. 971 45

For the past decade, hypertension research has shifted strongly in the direction of molecular genetics. The success stories are the monogenic hypertensive syndromes. Classic linkage analyses has located the responsible genes for glucocorticoid-remediable aldosteronism, Liddle syndrome, and apparent mineralocorticoid excess. The genes have been cloned and their function elucidated. Other monogenic syndromes are currently being intensively studied. However, in the area of primary hypertension, the successes have relied on the candidate gene approach. Allelic variants in the genes for angiotensinogen, alpha-adducin, beta2-adrenergic receptor, the G-protein beta3-subunit and the T594M mutation in the beta-subunit of the epithelial sodium channel have been identified; however, the importance of these allelic variants to primary hypertension as a whole, is not yet clear. A variant in the angiotensin-converting enzyme gene could not, initially, be convincingly associated with hypertension, but more recent analyses suggest an influence of the deletion allele on blood pressure in men, but apparently not in women. In all likelihood we are dealing with many genes with small effects. Affected sibling pair linkage analyses will probably not be successful in identifying the loci of these genes. To find new genes, novel approaches will be necessary, including searching for quantitative trait loci linked to blood pressure in normotensive persons, haplotype sharing methodology in trios and family units, the use of better study designs, and the investigation of isolated populations. Finally, rethinking the phenotype 'hypertension' and its intermediates must also receive priority.
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PMID:Molecular genetics of human hypertension. 988 71

Abnormalities in renal sodium reabsorption may be involved in the development and maintenance of experimental and clinical hypertension. Adducin polymorphism is thought to regulate ion transport in the renal tubule. It has recently been shown that there is a significant linkage of alpha-adducin locus to essential hypertension and that the 460Trp allele is associated with hypertension. Patients with this allele display larger blood pressure changes with body sodium variation. The aim of this study was to test whether alpha-adducin polymorphism is involved in abnormalities of renal function. Because proximal tubular reabsorption has been shown to be tightly coupled to renal perfusion pressure, this segmental tubular function was investigated in 54 (29 Gly/Gly and 25 Gly/Trp) untreated hypertensive patients in basal conditions with the use of endogenous lithium concentration and uric acid. Fractional excretions of lithium and uric acid were significantly decreased in the Gly/Trp hypertensive patients compared with the Gly/Gly hypertensives. The contribution of alpha-adducin to fractional excretion of lithium was investigated by multiple regression analysis. Adducin genotype was significantly (R2=0.11, F=6.5; P<0.01) and directly related to fraction excretion of lithium; gender, age, urinary Na+, urinary uric acid, mean blood pressure, and plasma renin activity were not related. In conclusion, the adducin gene can be considered to be a 'renal hypertensive gene' that modulates the capacity of tubular epithelial cells to transport Na+ and hence contributes to the level of blood pressure.
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PMID:Adducin polymorphism affects renal proximal tubule reabsorption in hypertension. 1002 30

A Gly460Trp variant of the cytoskeletal protein alpha-adducin has recently been implicated in the etiology of essential hypertension (HT) in a study involving southern European whites. We attempted to replicate this finding in a well-characterized, extensively studied group of 112 white Australians with essential HT, with strong family history (two HT parents), early-onset, moderate to severe disease, and of British extraction. Controls were 196 normotensive (NT) white subjects whose parents were both NT older than age 50 years. A mismatch polymerase chain reaction method involving BanII was developed for genotyping. Frequency of the Trp460 allele was 0.23 in the HT and 0.24 in the NT groups (chi2 = 0.2, P = .7). No association was observed with blood pressure, body mass index, age, plasma renin, angiotensinogen, angiotensin converting enzyme, cholesterol, triglycerides, or HDL or LDL cholesterol. Our results therefore provide no support for a role for the alpha-adducin variant in hypertension, at least in our severely affected Anglo-white group with strong family history of HT.
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PMID:The Gly460Trp variant of alpha-adducin is not associated with hypertension in white Anglo-Australians. 1037 74

Previous studies of hypertension in humans and experimental animal models have identified a number of candidate genes that have since been implicated as possibly contributing to essential hypertension. Among them are the genes encoding angiotensinogen, renin, the beta- and gamma-subunits of the epithelial sodium channel (beta/gamma-ENaC), alpha-adducin, and kallikrein (KLK). To examine the role of possible contribution of these genes in ethnic Chinese, as well as the epistatic interaction among them, we studied a large cohort of hypertensive sib pairs from China. DNA samples from 310 concordant affected sibling pairs with hypertension were tested for linkage with the use of excess allele-sharing algorithms based on genotyping with highly informative GT-repeat microsatellite markers localized in the immediate vicinity of the genes encoding angiotensinogen, renin, beta- and gamma-ENaC, alpha-adducin, and KLK. Affected sib pair analysis conducted according to 3 different methods (Statistical Analysis for Genetic Epidemiology [S.A.G.E. ]/SIBPAL, MAPMAKER/SIBS, and affected pedigree member [APM] methods) revealed no evidence for linkage of any of these genes to primary hypertension in the population studied. Moreover, 2-locus sib pair linkage analyses to test for gene-gene interactions among each possible pair of candidate genes failed to yield any statistically significant results. Our findings provide no support for a significant contribution of the angiotensinogen, renin, beta/gamma-ENaC, alpha-adducin, or KLK genes, alone or in concert, to the pathogenesis of essential hypertension among Chinese. Our results emphasize the possible role of ethnic differences for complex disease genetics, as well as the need for large, well-characterized investigations.
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PMID:Linkage analysis of candidate genes and gene-gene interactions in chinese hypertensive sib pairs. 1037 11

Blood pressure homeostasis in humans reflects the coordinate interactions of cardiac output, peripheral vascular resistance, renal volume control, and CNS integration in response to short- and long-term environmental stimuli. Variations in mean arterial pressure within the population include a significant hereditary component. The clearest examples of this genetic contribution occur in rare forms of monogenic hypertension (glucocorticoid remediable aldosteronism, apparent mineralocoid excess, Liddle's syndrome) or hypotension (pseudohypoaldosteronism type I, Bartter's syndrome, Gitelman's syndrome). Primary hypertension, which comprises approximately 95% of hypertensives and is a major risk factor for coronary heart disease, stroke, and renal disease in the U.S., represents a multifactorial and polygenic disease with incremental contributions from genetic and environmental determinants. Efforts to date have identified several candidate genes involved in primary hypertension, including angiotensinogen (AGT), a vasoactive peptide; alpha-adducin, a protein that regulates sodium transport; and the G protein beta 3 subunit, a protein involved in intracellular signal transduction. Advances in knowledge and technology associated with the Human Genome Project, combined with continuing basic research on the physiologic and biochemical causes of hypertension, offer promise for improved diagnosis and therapy of this prevalent disease.
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PMID:Genetic determinants of blood pressure regulation. 1038 72


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