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:C0004135 (ATM)
13,001 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Transgenic mice are useful tools to investigate the mechanisms of the renal profibrotic actions of endothelin and angiotensin II. The overexpression of angiotensinogen and renin genes induces renal sclerosis independently of changes in systemic hemodynamics. The same results are observed when the endothelin-1 gene is overexpressed. Transgenic mice harboring the luciferase gene, under the control of the collagen I alpha2 chain promoter, and made hypertensive by induction of a nitric oxide (NO) deficiency have been studied. In this strain of mice, luciferase activity is an early index of renal and vascular fibrosis. Luciferase activity was increased in preglomerular arterioles and glomeruli when mice were treated with N:(omega)-nitro-L-arginine methyl ester, an inhibitor of NO synthases. Bosentan (an endothelin receptor antagonist) was as efficient as losartan (an AT1 receptor antagonist) in preventing renal fibrosis, although it did not decrease BP. In short-term experiments, angiotensin II produced an increase in luciferase activity that was entirely prevented by losartan but also by bosentan. It can be concluded that, during chronic inhibition of NO, the collagen I gene is activated, which contributes to the development of nephroangiosclerosis and glomerulosclerosis. Angiotensin II plays a major role in this fibrogenic process, and its effect is at least partly independent of systemic hemodynamics and mediated by the profibrotic action of endothelin-1.
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PMID:Mechanisms mediating the renal profibrotic actions of vasoactive peptides in transgenic mice. 1106 43

Angiotensin II (Ang II) infusion in rats augments vascular injury in balloon-injured carotid arteries and induces marked vascular and tubulointerstitial injury in kidneys. We examined how the AT1 receptor is modulated and whether blockade of the receptor with losartan could prevent the phenotypic and cellular changes. We also examined the role of the local renin-angiotensin system (RAS) by examining the expression of angiotensin-converting enzyme (ACE) and the effect of treatment with the ACE inhibitor, ramipril. Ang II infusion resulted in systemic hypertension and accelerated intimal and medial thickening in balloon-injured carotid arteries. Renal injury was manifested by proteinuria, glomerular phenotypic changes (mesangial expression of alpha-actin and podocyte expression of desmin), and tubulointerstitial injury with the tubular upregulation of the macrophage-adhesive protein, osteopontin, the interstitial accumulation of macrophages and myofibroblasts, and the deposition of collagen types III and IV. Ang II infusion decreased AT1 receptor number in the renal interstitium but not in glomeruli. Losartan completely blocked the Ang II-mediated hypertension, proteinuria, and injury to both carotid and kidney. Ang II infusion was also associated with an increase in ACE protein in both the proximal tubular brush border as well as at interstitial sites of injury, but despite evidence for activation of the local RAS, treatment with ramipril was without effect. These studies demonstrate that the renal and vascular injury induced by Ang II infusion is mediated by the AT1 receptor despite downregulation of the receptor in the interstitium. In addition, although there is evidence for local RAS activation, the injury appears to be mediated solely by the exogenous Ang II.
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PMID:Renal and vascular injury induced by exogenous angiotensin II is AT1 receptor-dependent. 1117 28

Various AT1 receptor antagonists including losartan are known to inhibit human platelet activation by antagonising TXA2/PGH2 receptors (TP receptors). Presently, we check a hypothesis that losartan, an imidazole derivative in contrast with valsartan, a non-imidazole compound, may inhibit human platelet activation also through inhibition of TXA2 synthesis. Inhibitory action of losartan (2-n butyl-4-chloro-5-hydroxymethyl-1-beta(2'-(1H-tetrazol-5yl)biphenyl-4-yl)methyl] imidazole), its active metabolite EXP 3174 (2-n-butyl-4-chloro-1-beta (2-(1H-tetrazol-5-yl) biphenyl-4-yl) methyl]imidazole-5-carboxylic acid) and valsartan ((S)-N-valeryl-N-(beta2'-(1H-tetrazol-5-yl)biphenyl-4-yl]methyl]valine), on collagen-induced platelet aggregation and TXA2 generation was compared to effects achieved by each compound on U46619-induced aggregation in aspirinized platelets. Losartan and aspirin inhibited collagen-induced platelet aggregation with approximately the same potency, whereas EXP 3174 and valsartan showed much weaker antiplatelet effects. Interestingly, losartan, EXP 3174 and valsartan displayed similar potencies as inhibitors of U46619-induced aggregation in asprinized platelets as in collagen-induced aggregation in non-aspirinized platelets. None of the above three AT1 antagonists, up to a concentration of 300 microM, did influence collagen-induced TXA2 synthesis in human platelets. In conclusion, antiplatelet effects of AT1 antagonists, irrespective of the presence or absence of non-condensed imidazole in their chemical structure, involve antagonism of TP receptors but not inhibition of TXA2 synthesis in platelets.
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PMID:Antiplatelet action of losartan involves TXA2 receptor antagonism but not TXA2 synthase inhibition. 1119 44

Ventricular fibroblasts were cultured using conditioned growth medium for ventricular fibroblasts (FCGM). The rate of the total collagen synthesis of ventricular fibroblasts was measured by assaying the incorporation rate of [3H]-proline, whereas the proliferation of ventricular fibroblasts was assessed by determining the incorporation rate of [3H]-TdR and the expression of c-fos genes. FCGM significantly increased the [3H]-proline incorporation rate and [3H]-TdR incorporation rate of fibroblasts in a dose-dependent manner. Furthermore, FCGM promoted the c-fos gene expression of fibroblasts, which attained its maximum in 1 h. BQ123, an ETA receptor antagonist, partially blocked the above effects of FCGM, but AT1 receptor antagonist CV11974 and alpha-adrenergic receptor antagonist regitin did not. It is suggested that the ventricular fibroblast has an autorine function in promotion of collagen synthesis and proliferation of fibroblasts by secreting endothelin and other bioactive substances.
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PMID:[Role of conditioned growth medium for ventricular fibroblasts in promoting fibroblast collagen synthesis and proliferation]. 1135 91

Vascular structure, function, and mechanics are altered in hypertension, which contributes to an important degree to complications of elevated blood pressure. Vascular hypertrophy with collagen deposition and increased stiffness is found in large arteries, whereas in small arteries, smooth muscle cells are restructured around a smaller lumen, and there is no net growth of the vascular wall, particularly in milder forms of hypertension. Hypertrophic remodeling and increased small artery stiffness may be found in more severe hypertension. Endothelial dysfunction occurs in large or smaller vessels in a variable percentage of patients, particularly in presence of other risk factors such as diabetes, smoking, dyslipidemia, and advanced atherosclerosis. In clinical trials, 1-year treatment with angiotensin-converting enzyme inhibitors, angiotensin AT1 receptor antagonists, and long-acting calcium channel blockers corrected small artery structure and endothelial dysfunction in hypertensive patients, whereas beta-adrenergic receptor blockers did not. Improved outcomes in hypertensive patients demonstrated in recent trials with some but not others of these agents could be a consequence, at least in part, of vascular protection offered by some antihypertensive agents.
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PMID:Small artery remodeling in hypertension: can it be corrected? 1146 50

The present study was undertaken to determine the effects of AT1 receptor blockade which occurred in response to losartan, on the extracellular matrix (ECM) degradation process in the Bio 14.6 (n = 12) and Bio 53.58 (n = 12) strains which are referred as models of hypertrophic and dilated cardiomyopathy, respectively. The administration of losartan (30 mg/kg/day) in hamsters from 10-20 weeks of age reduced the accumulation of the left ventricular collagen matrix in both of the Bio 14.6 and the Bio 53.58 strains. According to the RT-PCR, the levels of mRNA for matrix metalloproteinase (MMP) and the tissue inhibitor of MMP (TIMP) were examined. MMP-1, -2, -3, and -9 were more enhanced in both myopathic strains than in the control F1beta, strains. With losartan, the levels of MMP-1, -2, -9, TIMP-1 and -2 decreased in the both strains but those for MMP-3 did not in Bio 14.6 strains. TIMP-3 and -4 mRNA levels did not change in any of the experimental hamsters, whether treated or untreated with losartan. The Western blots also showed similar observations in the both strains as seen in mRNA expressions although MMP-2 in the Bio 53.58 strains did not differ between treated and untreated with losartan. Although losartan has an inhibitory effect on collagen accumulation in the development of cardiomyopathy, MMPs (-1, -2, -9) and TIMPs (-1, -2) seem to be susceptible to responding to losartan in Bio cardiomyopathic hamsters.
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PMID:Effects of losartan on the collagen degradative enzymes in hypertrophic and congestive types of cardiomyopathic hamsters. 1169 96

AIM:To investigate effect of losartan, an AT1 receptor antagonist, on hepatic fibrosis induced by CCl(4); and to determine whether or not AT1 receptors are expressed on hepatic stellate cells. METHODS AND RESULTS:Fifty male Sprague-Dawley rats, weighing (180 plus minus20)g, were randomized into five groups (control group, model group, and three losartan treated groups), in which all rats were given the subcutaneous injection of 40% CCl(4)(every 3 days for 6 weeks) except for rats of control group. Rats of losartan-treated groups were treated with losartan (20 mg/kg, 10 mg/kg, 5 mg/kg, daily gavage). After 6 weeks liver tissue and serum samples of all rats were examined. Serum hyaluronic acid (HA), procollagen type III (PC III) were detected by radioimmunoassays. van Giesion collagen staining was used to evaluate the extracellular matrix of rats with liver fibrosis. The expression of AT1 receptors, transforming growth factor-beta (TGF-beta), and alpha-smooth muscle actinalpha-SMA) in liver tissue were determined by immunohistochemical techniques. Compared with model group, serum ALT and AST of losartan-treated groups were significantly reduced (italic>t = 4.20,P < 0.01 and italic>t = 4.57,P < 0.01). Serum HA and PC III also had significant differences (italic>t = 3.53,P<0.01 and t=2.20, P<0.05). The degree of fibrosis was improved by losartan and correlated with the expressions of AT1 receptors, TGF-beta, and alpha-SMA in liver tissue.CONCLUSION:AT1 receptor antagonist, losartan, could limit the progression of the hepatic fibrosis induced by CCl(4). The mechanism may be related to the decrease in the expression of AT1 receptors and TGF-beta, ameliorating the injury of hepatocytes; activation of local renin-angiotensin system might relate to hepatic fibrosis; and during progression of fibrosis, activated hepatic stellate cells might express AT1 receptors.
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PMID:Effects of AT1 receptor antagonist, losartan, on rat hepatic fibrosis induced by CCl(4). 1181 43

Angiotensin II (Ang II) acts mainly on two receptor subtypes: AT1 and AT2. Most of the known biological actions of Ang II are mediated by AT1 receptors; however, the role of AT2 receptors remains unclear. We tested the hypothesis that the cardioprotective effects of AT1 receptor antagonists (AT1-ant) after myocardial infarction (MI) are partially mediated by activation of AT2 receptors; thus in AT2 receptor gene knockout mice (AT2-/Y), the effect of AT1-ant will be diminished or absent. MI was induced by ligating the left anterior descending coronary artery. Four weeks later, AT2-/Y and their wild-type littermates (AT2+/Y) were started on vehicle, AT1-ant (valsartan, 50 mg/kg per day), or ACE inhibitor (enalapril, 20 mg/kg per day) for 20 weeks. Basal blood pressure and cardiac function as well as remodeling after MI did not differ between AT2+/Y and AT2-/Y. AT1-ant increased ejection fraction and cardiac output and decreased left ventricular diastolic dimension, myocyte cross-sectional area, and interstitial collagen deposition in AT2+/Y, and these effects were significantly diminished in AT2-/Y. ACE inhibitors improved cardiac function and remodeling similarly in both strains. We concluded that (1) activation of AT2 during AT1 blockade plays an important role in the therapeutic effect of AT1-ant and (2) the AT2 receptor may not play an important role in regulation of cardiac function, either under basal conditions after MI remodeling or in the therapeutic effect of ACE inhibitors.
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PMID:Role of AT2 receptors in the cardioprotective effect of AT1 antagonists in mice. 1221 61

Accumulating evidence suggests that angiotensin II (ANG II) plays an important role in the complex affair of renal organogenesis. The renin-angiotensin system (RAS) is up-regulated during renal development and in the perinatal period. On the other hand, inhibition of the RAS, for example by angiotensin-converting enzyme (ACE) inhibitors, may produce specific renal abnormalities including abnormal renal vessels, failure to develop a renal pelvis and tubular atrophy associated with expansion of the interstitium. AT2 receptors are expressed abundantly during fetal development and are down-regulated markedly after birth, whereas the abundance of AT1 receptors increases as maturation proceeds. Mice with targeted deletions of genes for angiotensinogen or ACE revealed severe renal abnormalities. In contrast, AT1A, AT1B and AT2 receptor knockout animals exhibited milder abnormalities of the kidney. These findings suggest that AT1 and AT2 receptors are both involved in the development of the nephron, and that ANG II provides signals through both receptors. ANG II exerts in vitro growth-stimulatory effects on tubular cells. Moreover, ANG II induces synthesis of collagen type IV in tubular cells, a necessary prerequisite for successful basement membrane formation. These effects are mediated through AT1 receptors. Thus, it is feasible that blockade of the RAS during kidney organogenesis leads to a decrease in the growth factor ANG II that may be pivotal for tubular growth and differentiation. On the other hand, ANG II's growth-stimulatory effects through AT1 receptors may be counterbalanced by AT2 receptor-mediated apoptosis and growth inhibition. Therefore, alterations in AT2 receptor signalling may alter the delicate balance between growth stimulation and inhibition, leading to alterations in tubular formation.
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PMID:Angiotensin II and tubular development. 1238 87

Blocking aldosterone action has been of clinical interest in the treatment of hypertension and related target organ damage. Although we have previously demonstrated aldosterone escape during long term administration of AT1 antagonist, pathological significance of aldosterone remains unknown. We investigated the effects of co-administration of spironolactone(SPRL) on the cardioprotective effects of AT1A in SHR-SP. Administration of AT1A alone resulted in a significant decrease in cardiac weight, cardiac transverse section area, cardiac fibrosis, and mRNA expression of BNP, type I and type III collagen, while cardiac ET-1 mRNA showed a significant increase. Co-administration of AT1A with SPRL resulted in a significant decrease in all the parameters including ET-1 mRNA expression. These results provide theoretical rationale for combination therapy of AT1A and SPRL in hypertension.
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PMID:[Significance of combining spironolactone during long-term administration of ARB]. 1239 93


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