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: UMLS:C0020538 (hypertension)
170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The gene encoding angiotensin II type 1 receptor (AT1) is mapped on 3q21-q25 region, and a polymorphism, A1166C, is located at 3'untranslated region (UTR). A1166C is associated with increased risk for hypertension, aortic stiffness, left ventricular hypertrophy and diabetic nephropathy, and synergistically increases the risk for ischemic heart disease with DD polymorphism of angiotensin converting enzyme gene. However, these results were still in controversy. On the other hand, the gene encoding angiotensin II type 2 receptor (AT2) gene is mapped on Xq22-q23 region, and a polymorphism, C3123A, is identified at 3'UTR of AT2 gene. However, any significant association with C3123A has not been obtained in case control studies yet.
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PMID:[Gene loci and polymorphisms of angiotensin II receptor]. 1036 28

Angiotensin II is a potent arterial vasoconstrictor and induces hypertension. Angiotensin II also exerts a trophic effect on cardiomyocytes in vitro. The goals of the present study were to document an in vivo increase in cardiac angiotensins in the absence of elevated plasma levels or hypertension and to investigate prevention or regression of ventricular hypertrophy by renin-angiotensin system blockade. We demonstrate that high cardiac angiotensin II is directly responsible for right and left ventricular hypertrophy. We used transgenic mice overexpressing angiotensinogen in cardiomyocytes characterized by cardiac hypertrophy without fibrosis and normal blood pressure. Angiotensin-converting enzyme inhibition and angiotensin II type 1 receptor blockade prevent or normalize ventricular hypertrophy. Surprisingly, in control mice, receptor blockade decreases tissue angiotensin II despite increased plasma levels. This suggests that angiotensin II may be protected from metabolization by binding to its receptor. Blocking of the angiotensin II type 1 receptor rather than enhanced stimulation of the angiotensin II type 2 receptor may prevent remodeling and account for the beneficial effects of angiotensin antagonists.
Hypertension 2000 Apr
PMID:Increased cardiac angiotensin II levels induce right and left ventricular hypertrophy in normotensive mice. 1077 73

We hypothesized that the cardioprotective effect of angiotensin II type 2 receptor (AT(2)R) blockade with PD 123,319 (PD) on the recovery of left ventricular (LV) mechanical function after ischemia/reperfusion (IR) in the isolated working rat heart is associated with the enhanced expression of AT(2)R protein and mRNA as well as an increase in inositol 1,4,5-trisphosphate type 2 receptor (IP(3)R) and protein kinase Cepsilon (PKCepsilon) proteins. We assessed AT(2)R, angiotensin II type 1 receptor (AT(1)R), IP(3)R, and PKCepsilon protein expression (Western blots) and AT(2)R mRNA levels (Northern blots) in myocardium from isolated working rat hearts that were subjected to global ischemia (30 minutes) followed by reperfusion (30 minutes). Groups of adult rat hearts (n=6) were exposed to no IR, no IR+PD (0.3 micromol/L), IR, and IR+PD. Compared with no IR and no IR+PD, IR decreased (P<0.05) functional recovery and AT(2)R mRNA and protein, as well as AT(1)R mRNA (not protein) and IP(3)R and PKCepsilon proteins. Compared with IR, PD+IR improved LV functional recovery (P<0.05) and markedly increased AT(2)R mRNA and protein (P<0.001). However, PD did not change AT(1)R mRNA or protein. More importantly, PD+IR markedly increased IP(3)R and PKCepsilon proteins. The downregulation of AT(2)R mRNA and protein with IR and their upregulation with PD indicate that the effects of PD are AT(2)R specific. The overall results suggest that the cardioprotective effect of acute PD treatment on LV functional recovery after IR in the isolated working rat heart is specifically due to AT(2)R blockade and is associated with enhanced downstream IP(3)R and PKCepsilon signaling.
Hypertension 2000 Oct
PMID:Enhanced expression of angiotensin II type 2 receptor, inositol 1,4, 5-trisphosphate receptor, and protein kinase cepsilon during cardioprotection induced by angiotensin II type 2 receptor blockade. 1104 Feb 27

The renin-angiotensin system is believed to play important roles in the development of acute myocardial infarction, and gene polymorphisms may also be involved. To investigate the genetic background in patients with acute myocardial infarction, we performed a case control study in a Japanese population. The study included 150 patients with acute myocardial infarction and 150 healthy, age- and sex-matched controls. We examined polymorphisms of angiotensin II type 1 receptor (1 166 A / C), type 2 receptor (3123 C / A), and bradykinin B2 receptor (-58 T / C) in these subjects. The allelic frequencies of angiotensin II type I receptor C and angiotensin II type 2 receptor A were significantly higher in the acute myocardial infarction subjects than in the control subjects, and this tendency was more significant in the younger patients. The combined ratios of angiotensin II type 1 receptor C and type 2 receptor A alleles in patients under 64 years old were significantly higher than in their older counterparts. However the total numbers of conventional coronary risk factors (hypertension, hypercholesterolemia, diabetes mellitus, and smoking) in individual subjects were not significantly different between younger and older patients. These polymorphisms were found to be involved in the development of acute myocardial infarction, particularly in the younger patients, and it was concluded that the incidence of acute myocardial infarction might be reduced by management from the genotypes.
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PMID:Genetic background in patients with acute myocardial infarction. 1132 3

Recent studies have shown that angiotensin-(1-7) (Ang-[1-7]), which is generated endogenously from both Ang I and II, is a bioactive component of the renin-angiotensin system and may play an important role in the regulation of blood pressure. However, little is known about its role in regulating the reactivity of the afferent arteriole or the mechanism(s) involved. We hypothesized that Ang-(1-7), acting on specific receptors, participates in the control of afferent arteriole tone. We first examined the direct effect of Ang-(1-7) on rabbit afferent arterioles microperfused in vitro, and we tested whether endothelium-derived relaxing factor/NO and cyclooxygenase products are involved in its actions. To assess the vasodilator effect of Ang-(1-7), afferent arterioles were preconstricted with norepinephrine, and increasing concentrations of Ang-(1-7) were added to the lumen. We found that 10(-10) to 10(-6) mol/L Ang-(1-7) produced dose-dependent vasodilatation, increasing luminal diameter from 8.9+/-1.0 to 16.3+/-1.1 microm (P<0.006). Indomethacin had no effect on Ang-(1-7)-induced dilatation. N(G)-nitro-L-arginine methyl ester, a NO synthesis inhibitor, abolished the dilatation induced by Ang-(1-7). We attempted to determine which angiotensin receptor subtype is involved in this process. We found that 10(-6) mol/L [d-Ala7]-Ang-(1-7), a potent and selective Ang-(1-7) antagonist, abolished the dilatation induced by Ang-(1-7). An angiotensin II type 1 receptor antagonist (L158809) and an angiotensin II type 2 receptor antagonist (PD 123319) at 10(-6) mol/L had no effect on Ang-(1-7)-induced dilatation. Our results show that Ang-(1-7) causes afferent arteriole dilatation. This effect may be due to production of NO, but not the action of cyclooxygenase products. Ang-(1-7) has a receptor-mediated vasodilator effect on the rabbit afferent arteriole. This effect may be mediated by Ang-(1-7) receptors, because angiotensin type 1 and type 2 receptor antagonists could not block Ang-(1-7)-induced dilatation. Thus, our data suggest that Ang-(1-7)opposes the action of Ang II and plays an important role in the regulation of renal hemodynamics.
Hypertension 2002 Mar 01
PMID:Vasodilator action of angiotensin-(1-7) on isolated rabbit afferent arterioles. 1189 67

The purpose of the study was to determine whether DNA polymorphisms at the renin-angiotensin-aldosterone (RAS) genes were associated with evolution to renal scar formation and, consequently, with reflux nephropathy (RN) in patients with vesicoureteral reflux (VUR). Some authors have suggested that the DD genotype of the angiotensin-converting enzyme (ACE) gene would be an adverse renal prognosis factor. We recruited 246 patients (aged 3 months to 22 years) from four Spanish hospitals. These included 69 patients with VUR, 110 with RN (determined by absence/presence of renal scarring on dimercaptosuccinc acid scan), 27 with chronic renal failure due to RN, and 40 patients (control group) with urinary tract infection and normal findings on renal ultrasonography and voiding cystoureterogram. The ACE I/D, angiotensin II type 1 receptor AT1 A1166C, angiotensin II type 2 receptor A3123C AT2, and angiotensinogen AGT M235T polymorphisms were determined on the basis of polymerase chain reaction amplification. ACE serum levels were determined by spectrophotometric methods. We found no statistical differences in the distribution of RAS polymorphisms between the different groups. The ACE D allele was linked to higher ACE serum levels. We found no association between ACE I/D polymorphism and presence of hypertension, proteinuria, grade of VUR, or unilateral/bilateral VUR. Patients with the DD genotype had a lower incidence of febrile urinary tract infection as a first symptom of VUR/RN (P<0.05). We conclude that genetic polymorphisms of RAS components are not independent prognostic indicators of renal scarring in patients with VUR.
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PMID:Renin-angiotensin system polymorphisms and renal scarring. 1257 98

The renin-angiotensin system plays an important role in blood pressure regulation by influencing salt-water homeostasis and vascular tone. Angiotensin II, the major biologically active component of this system, exerts its effect via two pharmacologically distinct subtypes of angiotensin II receptors, the angiotensin II type 1 receptor (AT1-R) and the angiotensin II type 2 receptor (AT2-R). Thus, the AT2-R gene may be involved in hypertension. Accordingly, our objective was to examine whether polymorphisms of the AT2-R gene are involved in hypertension. The entire AT2-R gene including the promoter region was screened to find polymorphisms. As a result, two novel single nucleotide polymorphisms (SNPs), A1818T in intron 2 and G4303A in exon 3, as well as two known SNPs, A1675G in intron 1 and C4599A in exon 3, were identified. These four SNPs had similar allele frequencies, and the A1675G and C4599A polymorphisms were in almost complete linkage disequilibrium. Because the AT2-R gene is located on the X chromosome, we analyzed the possible association between the C4599A polymorphism and hypertension in men and in women separately in two large Japanese populations. This analysis showed that the C4599A polymorphism was associated with hypertension in women (p=0.0058), but not in men. Moreover, this female-specific association was pronounced in premenopausal women. The female-specific association may be helpful in conducting further molecular and biological studies on the relationship among sex, the renin-angiotensin system, and hypertension.
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PMID:Association of angiotensin II type 2 receptor gene variant with hypertension. 1292 22

Exposure to undernutrition during fetal life has been proposed as an underlying cause of adult hypertension. Epidemiological studies demonstrating relationships between low birth weight and later CVD are supported by animal experiments indicating that manipulations of the maternal diet in pregnancy exert programming effects upon blood pressure control. Pregnant female Wistar rats were fed a control diet (n 13) or a low-protein diet (n 12) throughout pregnancy. At delivery all animals were fed the same standard laboratory chow diet. Analysis of nephron number in kidneys obtained from 4-week-old offspring showed that this was significantly (P<0.05) reduced in animals exposed to maternal protein restriction. At this age rats exposed to low-protein diets in utero had systolic blood pressures that were significantly greater than those of control animals (+23 mmHg, P<0.05). Administration of ascending doses of angiotensin II (1-40 ng/kg body weight intravenously) to 10-week-old anaesthetised female rats showed that the pressor response to the peptide was greater and more prolonged in animals exposed to low-protein diets in utero. Renal expression of mRNA for the angiotensin II type 1A receptor was similar in the two groups of rats, but low-protein-exposed animals had significantly lower renal expression of the type 2 receptor (P=0.023). These results suggest that maternal nutritional status programmes expression of the renal angiotensin II type 2 receptor. This may play a key role in the impairment of renal development and the elevation of blood pressure noted in rats exposed to intra-uterine protein restriction.
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PMID:Prenatal programming of angiotensin II type 2 receptor expression in the rat. 1474 46

In the rat, blockade of angiotensin II type 1 receptors diminishes the functional changes that occur after kidney irradiation. It has been hypothesized that some of the beneficial effects of angiotensin II type 1 blockers in renal disease are caused by a rise in angiotensin II that stimulates the angiotensin II type 2 receptor. If this hypothesis applied in this model, blockade of the type 2 receptor should exacerbate radiation nephropathy and/or counteract the beneficial effects of type 1 receptor blockade. To assess this hypothesis, rats were given total-body irradiation plus bone marrow transplantation and then treated for 12 weeks with a type 1 receptor blocker (L158,809), a type 2 blocker (PD123319), both blockers, or no blockers. Rats were assessed for renal function (proteinuria, hypertension, azotemia) and renal failure for up to 62 weeks. Contrary to the hypothesis, the type 2 blocker alone produced a temporary delay in the development of radiation nephropathy, and it substantially enhanced the efficacy of the type 1 blocker. This implies that both type 1 and type 2 angiotensin receptors need to be blocked to achieve the maximum level of prophylaxis of radiation nephropathy. We speculate that the beneficial effect of the angiotensin II type 2 receptor blocker is due to a reduction in radiation-induced renal cell proliferation or fibrosis.
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PMID:Impact of angiotensin II type 2 receptor blockade on experimental radiation nephropathy. 1498 83

The role of the angiotensin II type-2 receptor (AT2R) in cardiac hypertrophy remains elusive despite its demonstrated involvement in cardiovascular development. We have previously shown that a lentiviral vector gene delivery system is able to transduce cardiac tissue with high efficiency in vivo. Using such an approach, our objectives in the present study were 2-fold: (1) to overexpress the AT2R in cardiac tissue after completion of natural embryonic development of the heart and (2) to determine the effects of this overexpression on cardiac hypertrophy and basal blood pressure (BP). A lentiviral vector encoding the AT2R (lenti-AT2R) was administered (1.5x10(8) transducing units) into the left ventricular space of 5-day-old spontaneously hypertensive rats (SHRs). AT2R transgene expression increased in these animals and persisted for 30 weeks. In contrast, the expression of the angiotensin II type-1 receptor remained unchanged following lenti-AT2R treatment. At 21 weeks following gene transduction, the lenti-AT2R-treated SHRs exhibited decreased left ventricular wall thickness compared with control animals. In contrast, basal BP did not differ between the two SHR groups. Finally, heart weight to body weight ratios indicated a significant decrease in lenti-AT2R-treated SHRs compared with SHR controls. Our data indicate that AT2R overexpression attenuates cardiac hypertrophy in the SHR. This beneficial outcome was observed despite the existence of elevated BP.
Hypertension 2004 Jun
PMID:Prevention of cardiac hypertrophy by angiotensin II type-2 receptor gene transfer. 1516 82


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