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

Following a classical candidate gene approach we have detected a C825T polymorphism in the gene GNB3 which encodes the G beta 3 subunit of heterotrimeric G proteins. The 825T allele causes alternative splicing of the gene and the generation of a truncated but functionally active splice variant of G beta 3 which is referred to as G beta 3s. Thus, genotyping for the C825T polymorphism is predictive for the activation of certain G proteins in humans. The 825T allele is significantly associated with an increased risk for hypertension in Caucasians, most likely "low renin hypertension" and it accumulates significantly in individuals with a strong family history of hypertension. Highest frequencies of the 825T allele (up to 80%) are found in old ethnicities, e.g. black Africans, African Americans, bushmen, and Australian aborigines. This suggests that enhanced G protein activation represents a thrifty genotype which might have facilitated survival in our ancestors. Frequencies of the 825T allele are significant lower in Asians (approximately 40 to 50%) and Caucasians (30%). More recent studies show that young 825T allele carriers are predisposed for obesity and this association could be confirmed across different ethnicities including young Germans, as well as Chinese and black African individuals. Thus, genotyping at the GNB3 locus represents an ideal tool for preventive medicine in that individuals at risk for obesity and hypertension can be identified early and counteract their genetic predisposition through changes in lifestyle. In individuals with borderline hypertension genotyping can facilitate the decision for medical treatment as a positive test result confirms an inherited form of hypertension.
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PMID:[Genetic polymorphism of the G-protein beta3 subunit, obesity and essential hypertension]. 1071 7

The 825T allele of the gene GNB3 which encodes the beta 3 subunit of heterotrimeric G proteins is associated with enhanced signal transduction via G proteins through the generation of a splice variant termed Gbeta3s. It was detected following a classical candidate gene approach using cell lines from patients with enhanced signal transduction and essential hypertension. The high frequency of the 825T allele in 'old' ethnicities, e.g. bushmen and Australian aborigines as well as in black populations, together with its strong association with obesity suggests that the 825T allele is a true 'thrifty genotype'. Development of obesity associated with the 825T allele is strongly influenced by lifestyle, e.g. physical activity, and other exogenous influences like pregnancy. In hypertension the 825T allele is associated with low renin activity and appears to strongly predict the development of left ventricular hypertrophy. In type 2 diabetes the 825T allele was reported to be predispose for end-stage renal disease, whereas this effect has not yet been confirmed for patients with type 1 diabetes.
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PMID:G protein beta 3 subunit 825T allele, hypertension, obesity, and diabetic nephropathy. 1139 Jul 42

In polygenetic disorders, such as ischemic heart disease, the investigation of gene-gene interactions rather than determination of single gene effects is crucial to better understand the contribution of genetic factors. The 825T allele of the G-protein ss(3)-subunit gene (GNB3) associated with enhanced G-protein signaling is a candidate to interact with the angiotensin-converting enzyme (ACE) deletion/insertion (D/I) polymorphism to increase the risk for myocardial infarction (MI). The ACE D:/I variant affects the renin-angiotensin system hormones that activate G-protein-coupled receptors. Genotyping at the ACE and GNB3 loci was performed on 585 patients with coronary artery disease with (n=270) or without (n=315) previous MI. Logistic regression analysis demonstrated a significant interaction between the ACE D: allele and the GNB3 825T allele (P<0.001). The odds ratio for MI, associated with the 825T allele, was not increased in the presence of the ACE II genotype (OR 0.5; P=0.09) but was significantly higher in 825T allele carriers with the ACE DI genotype (OR 1.9; P=0.01) and further increased in individuals with the ACE DD genotype (OR 2.4; P=0.02). The highest odds ratio was found in homozygous 825T allele carriers with the ACE DD genotype (OR 7.5; P=0.006). Our data suggest a significant interaction of the GNB3 825T allele with the ACE D allele in MI. These hypothesis-generating data may justify larger prospective studies.
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PMID:Interaction of the ACE D allele and the GNB3 825T allele in myocardial infarction. 1111 12

The mechanism of human G beta mutation, G beta3-s, to produce a "gain-of-function" G-protein signaling abnormality remains to be elucidated. Both the enhanced Gi-mediated signalings and the expression of G beta3-s have been demonstrated to be associated with hypertension, together with the finding that the T825 variant might be associated with the occurrence of a splice variant GNB3-s in a white population. The aim of the present study was to reveal a key role of G beta by confirming the association between this polymorphism and susceptibility of hypertension in Japanese. Genotype analysis of 180 normotensive and 179 hypertensive subjects suggests that the T allele tends to be related to the prevalence of hypertension. When age, sex and body mass index were controlled by multiple logistic regression, odds ratios for hypertension associated with the T allele were 1.77 (TT vs CC; 95% confidence interval (CI) 0.97-3.21; p = 0.06), 1.13 (TC vs CC; 95% CI 0.62-2.05; p = 0.69) and 1.40 (TT + TC vs CC; 95% CI 0.81-2.40; p = 0.23). The T allele frequency was found to be significantly higher in hypertensives than in normotensives (0.63 vs 0.56; chi2 = 4.27; p = 0.04), both of which are considerably higher than the frequency observed in Whites. Higher T allele frequencies in Japanese may represent one of the ethnic differences: a larger subgroup whose hypertension is increased by excessive salt diet. Confirming the association between the T allele and hypertension by further investigation and then utilizing the various intermediate features or phenotypes, such as Na+/H+ exchanger activity and renin levels, may help to unravel the active role of the beta subunit.
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PMID:G protein beta3 subunit variant: tendency of increasing susceptibility to hypertension in Japanese. 1168 59

The genetic functional variant C for T in position 825 of the gene encoding G protein beta 3 subunit, GNB3, has been associated with enhanced G protein activation, cell growth and proliferation. This phenotype is associated with enhanced G protein activation and Na(+)-H+ exchanger activity in cells from hypertensive patients. Salt sensitivity affects approximately 50% of hypertensive patients and constitutes an intermediate phenotype determined in part by genetic factors. An association between enhanced Na(+)-H+ exchanger activity and salt sensitivity has been previously reported. The aim of the present study was to investigate the possible association between the G protein polymorphism and salt sensitivity in patients with essential hypertension. A total of 46 patients were studied and classified according to their blood pressure response to a change in sodium intake from low (20 mmol/day) to high (260 mmol/day) into salt sensitive (SS) (n = 20) and salt resistant (SR) (n = 26). GNB3 polymorphism was determined by PCR of genomic DNA and restriction digestion with BseDI. The genotypes distribution among the SS hypertensives was: 8 CC and 12 CT + TT, whereas in SR was: 10 CC and 16 CT + TT (p = 0,577). 24 h mean blood pressure response to salt in the whole group was not different among the different genotypes: CC 4.1 +/- 5.4 mmHg compared to CT + TT 2.9 +/- 6.3 mmHg (p = 0.51). There were no significant differences in the salt induced changes in plasma renin activity, aldosterone, ANP or noradrenaline among the different genotypes. These results indicate that the GNB3 C825T polymorphism has no major influence on the pressor response to salt in essential hypertension and therefore do not support its usefulness as an early genetic marker of salt sensitivity in this disease.
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PMID:[Absence of an association between the C825T polymorphism of the G-protein beta 3 subunit and salt-sensitivity in essential arterial hypertension]. 1181 11

Approximately 50% of hypertensive patients are salt sensitive (they increase their Blood Pressure in response to sodium intake or volume expansion). Mechanisms underlying salt sensitivity are not completely elucidated although there is evidence that they may be genetically determined. The aim of this study is to establish the relation among some genetic polymorphisms of the renin-angiotensin system (RAAS) and the beta-3 subunit of the protein G and salt sensitivity. We studied 102 essential hypertensive patients, stage 1-2 and without target organ damage. Salt sensitivity was assessed by the rapid protocol of Weinberger. We determined by polymerase Chain reaction techniques the following polymorphisms: insertion/deletion (I/D) of the angiotensin-converting enzyme (ACE), A1166C of the angiotensin II type 1 receptor (AT1R), -344C/T and intron 2 conversion (IC) of the aldosterone synthase (CYP11B2), and C825T of the beta-3 subunit of the protein G (GNB3). 41 patients (40.19%) were salt sensitive. The distribution of the different polymorphisms was similar in both groups of patients, but subjects carriers of the W allele of the CYP11B2 IC polymorphism had a greater risk for salt sensitivity as compared with no carriers (37 of 41, 90.2% vs 4 of 41, 9.8%, OR 3.02, P<0.05). Although there is no association between salt sensitivity and the different studied genotypes of the RAAS and of the GNB3, our data show a greater risk for salt sensitivity among carriers of the W allele of the CYP11B2 1C polymorphism.
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PMID:Renin-angiotensin-aldosterone system and G-protein beta-3 subunit gene polymorphisms in salt-sensitive essential hypertension. 1262 9

The blood pressure (BP) response to any single antihypertensive drug is characterized by marked interindividual variation, and the known predictors of response are of limited value in identifying the optimum drug for an individual patient. Analysis of genetic variation has the potential to improve our understanding of determinants of antihypertensive drug response in order to individualize drug selection. Genetic variation can influence both pharmacokinetic and pharmacodynamic mechanisms underlying variation in drug response. Classic pharmacogenetic investigations have identified variations in single genes that have a large effect on antihypertensive drug metabolism and are inherited in a Mendelian fashion. These include a polymorphism in the CYP2D6 gene, encoding a cytochrome p450 family member involved in phase I drug metabolism, and polymorphisms in genes encoding enzymes involved in phase II drug metabolism, including N-acetyltransferase (NAT2), catechol-O-methyltransferase (COMT), and phenol sulfotransferase (P-PST, SULT1A1). Although these polymorphisms have major effects on the pharmacokinetic profiles of both commonly used antihypertensive drugs such as metoprolol (CYP2D6), and lesser used drugs such as hydralazine (NAT2), methyldopa (COMT), and minoxidil (SULT1A1), they have not been shown to influence variation in the antihypertensive effect of these drugs at conventional doses. Interest is now focused on identifying genetic polymorphisms that influence the pharmacodynamic determinants of antihypertensive response. Using a candidate gene approach, such polymorphisms have been identified in genes encoding alpha-adducin (ADD1), subunits of G-proteins (GNB3 and GNAS1), the beta(1)-adrenergic receptor (ADRB1), endothelial nitric oxide synthase (NOS3), and components of the renin-angiotensin-aldosterone system (angiotensinogen [AGT], angiotensin converting enzyme [ACE], the angiotensin type I receptor [AGTR1], and aldosterone synthase [CYP11B2]). These polymorphisms have been shown to influence the BP response to diuretics (ADD1, GNB3, NOS3, and ACE), beta-blockers (GNAS1 and ADRB1), ACE inhibitors (AGT, ACE, and AGTR1), angiotensin receptor blockers (ACE and CYP11B2), and clonidine (GNB3).An emerging consensus from these studies is that single gene effects on antihypertensive drug responses are small, and even the combined effects of all presently known polymorphisms do not account for enough variation in response to be clinically useful. New genome-wide scanning techniques may lead to the identification of genes previously unsuspected of influencing drug response. Additional requirements for pharmacogenetic approaches to become clinically useful are the characterization of the effects of haplotypes and multi-locus genotypes on drug response, and consideration of gene-by-environment interactions. Such studies will require huge sample sizes and novel statistical methods, but the theoretical and technical framework is in place to make this possible.
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PMID:Pharmacogenetics of antihypertensive drug responses. 1517 96

The C825T polymorphism of the beta-3 subunit of the protein G (GNB3) has been related to an increased activity of the Na+/H+ exchanger (NHE-1) through the synthesis of an anomalous hyperactive protein. Because of the important role of this system in essential hypertension (EH), we analysed the distribution of the different genotypes of this polymorphism in normotensive subjects (NS) and essential hypertensive patients (EHP), their relationship with the condition of salt sensitivity, plasma sodium and potassium concentrations and plasma renin activity (PRA) in EHP. 144 subjects (78 EHP and 76 NS) were studied. Salt sensitivity was assessed by the rapid protocol of Weinberger and genotype determination for GNB3 C825T polymorphism was performed by PCR. The distribution of the different genotypes was similar among EHP (CC 37.2%; CT 41.1%; TT 16.7%) and NS (CC 32.9%; CT 55.3%; TT 11.8%). In regard to general characteristics of EHP (including blood pressure levels) and the condition of salt sensitivity, there were no differences among the different genotypes. Plasma sodium concentration was higher and plasma potassium was lower in TT patients (141.0+/-1.7 and 3.7+/-0.1) than in CC patients (139.1+/-1.9 and 4.0+/-0.3) p<0.05. CT patients had intermediate values (139.9+/-1.9 and 3.9+/-0.2). PRA values were similar in the three genotypes as were the rest of analytical parameters studied. Our data demonstrate an association between the C825T polymorphism of the GNB3 and plasma sodium and potassium concentrations in EHP, as expression of an increase in NHE-1 activity, without modifications in PRA nor relationship with salt sensitivity.
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PMID:G-protein beta-3 subunit gene C825 T polymorphism: influence on plasma sodium and potassium concentrations in essential hypertensive patients. 1600 97

The classic candidate gene approach continues to be the most prevalent tool in the search for the genetic basis of essential hypertension. With the list of candidate genes for this disorder steadily increasing, the pertussis toxin-sensitive inhibitory G protein (Gi) protein beta3 subunit (GNB3) gene has remained "sizzling," challenging the domination of the renin-angiotensin system. Is the genetic variability of GNB3 a causative factor underlying the pathogenesis of essential hypertension? Is the "functional" polymorphism, C825T, only "another" of the countless single nucleotide polymorphisms (SNP) for this disorder after all? As such, does its presence merely reinforce our confidence that essential hypertension is indeed polygenic? Should the C825T polymorphism be used in clinical practice and individualized antihypertensive treatment? Currently, there are still more questions than answers. In this review, in conjunction with our own research, we bring readers up to date on the latest developments of GNB3 polymorphisms in the field of hypertension.
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PMID:Update on G-protein polymorphisms in hypertension. 1660 Jan 56

The aim of the study was to verify the hypothesis that C825T polymorphism of G-protein beta3 subunit is involved in the development of the intermediate phenotype (increased sodium-proton exchanger activity). If true, increased sodium-proton exchange in the proximal tubule would enhance total sodium load and volemia (volumetric component of blood pressure). On the other hand, direct activation of the sodium-proton exchanger in vascular smooth muscle cells would augment vascular tone and eventually lead to hypertrophy of the vascular media and increased resistance (resistance component of blood pressure). Salt sensitivity was confirmed in 54% of patients with hypertension and 26% of controls. Significantly higher activity of erythrocyte and platelet NHE was found in patients with hypertension as compared to controls. The activity of erythrocyte NHE was within normal limits in 59% of patients with hypertension and was increased in the remaining 41%. The activity of platelet NHE was normal in 50% of patients with hypertension and was increased in the remaining 50%. No differences were found in the activities of erythrocyte and thrombocyte NHE between salt-sensitive and salt-resistant patients in the hypertension and control groups. Significantly higher activities of erythrocyte NHE were observed in salt-sensitive patients as compared to salt-sensitive controls. Significantly higher activities of erythrocyte and platelet NHE were found in salt-resistant patients as compared to salt-resistant controls. No relationship was found between GNB3 C825T genotypes and salt sensitivity. The frequency of CT+TT genotypes was significantly lower in controls as compared to patients with hypertension. A significantly higher frequency of the T allele was also observed in patients with hypertension as compared to controls. No influence of GNB3 genotypes or T allele on the activity of erythrocyte and platelet NHE, birth weight, BMI, plasma renin activity, aldosterone level, plasma lipid profile, urine and electrolyte excretion was found in patients with hypertension and in controls. The following conclusions were drawn: (1) Increased activity of the sodium-proton exchanger in erythrocytes and thrombocytes was associated with essential hypertension. (2) Activity of the sodium-proton exchanger in erythrocytes and thrombocytes was not a marker of salt-sensitive hypertension in patients on a normal sodium diet. (3) CT+TT genotypes of protein G beta3 subunit C825T polymorphism were more frequent in patients with hypertension but were not associated with increased activity of the sodium-proton exchanger in erythrocytes and thrombocytes. 4. CT+TT genotypes of protein G beta3 subunit C825T polymorphism were not associated with salt sensitivity in hypertensive patients.
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PMID:[Activity of the sodium-proton exchanger and polymorphism of G-protein beta-3 subunit in patients with essential hypertension]. 1687 46


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