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)

Angiotensin (Ang) II-induced organ damage has fascinated students of hypertension since the work of Wilson and Byrom. We are investigating a double transgenic rat (dTGR) model, in which rats transgenic for the human angiotensinogen and renin genes are crossed. These rats develop moderately severe hypertension but die of end-organ cardiac and renal damage by week 7. The heart shows necrosis and fibrosis, whereas the kidneys resemble the hemolytic-uremic syndrome vasculopathy. Surface adhesion molecules (ICAM-1 and VCAM-1) are expressed early on the endothelium, while the corresponding ligands are found on circulating leukocytes. Leukocyte infiltration in the vascular wall accompanies PAI-1, MCP-1, and VEGF expression. The expression of TGF-beta and deposition of extracellular matrix proteins follows, which is accompanied by fibrinoid vasculitis in small vessels of the heart and kidneys. Angiotensin-converting enzyme inhibitors and AT1 receptor blockers each lowered blood pressure and shifted pressure natriuresis partially leftward by different mechanisms. When combined, they normalized blood pressure, pressure natriuresis, and protected from vasculopathy completely. Renin inhibition lowered blood pressure partially, but protected from vasculopathy completely. Endothelin receptor blockade had no influence on blood pressure but protected from vasculopathy and improved survival. We show evidence that Ang II stimulates oxidative stress directly or indirectly via endothelin 1 and that NFkappaB is upregulated in this model. We speculate that the transcription factors NFkappaB and AP-1 are involved with initiating chemokine and cytokine expression, leading to the above cascade. The unique model and our pharmacological probes will enable us to test these hypotheses.
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PMID:Hypertension-induced end-organ damage : A new transgenic approach to an old problem. 993 Nov 7

Potential determinants of chronic renal disease (CRD) progression were studied in male Munich-Wistar rats subjected to 5/6 nephrectomy and treated with candesartan (Csn; n = 30) or enalapril (Ena; n = 27) from 5 wk postsurgery. Despite control of systolic blood pressure (SBP; 24 wk: Csn = 143 +/- 9; Ena = 148 +/- 8 mmHg), urinary protein excretion rates (U(pr)V) increased over 24 wk (Csn = 92 +/- 10; Ena = 99 +/- 8mg/day). Glomerulosclerosis scores (GS) at 24 wk were similar for Csn (42 +/- 7%) vs. Ena (42 +/- 4%), values close to those of untreated controls at 12 wk (43 +/- 4%). At 24 wk, SBP and UprV correlated strongly with GS, together accounting for 72% of the variance in GS. Renal cortex mRNA levels (determined by competitive RT-PCR) for transforming growth factor (TGF)-beta1 and monocyte chemoattractant protein (MCP)-1 were elevated in Csn and Ena at 12 wk and remained higher at 24 wk vs. sham. Strong correlations were evident among TGF-beta1, MCP-1, and interleukin-1beta and renal injury at 24 wk. Cns and Ena are thus equally effective renoprotective agents in this model. During renin-angiotensin system inhibition, renoprotection is dependent on control of both SBP and UprV. Incomplete suppression of renal cytokine gene expression may also contribute to CRD progression.
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PMID:Mechanisms underlying renoprotection during renin-angiotensin system blockade. 1120 10

Angiotensin-II (Ang-II) participates in the development and progression of atherosclerosis by activating type 1 (AT(1)) receptors. In vitro studies show that inflammatory factors, such as P-selectin and MCP-1, which can be upregulated by Ang-II, play an important role in atherogenesis. We examined the effect of AT(1) receptor blockade with losartan on the expression of P-selectin and MCP-1 in hypercholesterolemic rabbits. Since AT(1) receptor blockade is associated with feedback upregulation of renin-angiotensin system (RAS), we also examined alterations in plasma Ang-II levels by losartan therapy. Male NZW rabbits were fed regular chow (high cholesterol diet or high cholesterol diet + losartan 25 mg/kg/day). As expected, there was a marked intimal proliferation in association with increase in serum cholesterol (P < 0.001). In addition, there was a modest increase in plasma Ang-II levels (P < 0.05), and a significant increase in the expression of AT(1) receptors, P-selectin and MCP-1 in aortas of high cholesterol diet rabbits. Concurrent administration of losartan with high cholesterol diet attenuated aortic intimal proliferation induced a fivefold increase in plasma Ang-II levels and caused a marked decrease in expression of P-selectin and MCP-1 without change in serum lipid levels and aortic AT(1) receptor expression. These observations in hypercholesterolemic animal models show that AT(1) receptor blockade is associated with modulation of P-selectin and MCP-1 expression concurrent with reduction in intimal proliferation. The rise in plasma Ang-II does not appear to limit the potential beneficial effect of losartan.
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PMID:Attenuation of tissue P-selectin and MCP-1 expression and intimal proliferation by AT(1) receptor blockade in hyperlipidemic rabbits. 1140 83

The coexistence of hypercholesterolaemia and diabetes dramatically and synergistically increases the risk of microvascular and macrovascular complications in patients. A single unifying mechanism of increased production of reactive oxygen species (ROS) by angiotensin II (Ang II) may serve as a causal link between hyperglycaemia and hypercholesterolaemia and many of the major pathways responsible for atherogenic and diabetic disorders. Several lines of evidence suggest a crucial role for Ang II-mediated oxidative stress in the pathogenesis of hyperglycaemia- and hypercholesterolemia-associated endothelial dysfunction. Endothelial dysfunction in these scenarios may be due to impaired nitric oxide (NO) synthesis and/or inactivation of endothelium-derived NO by ROS. That Ang II plays an important role in the development of atherosclerosis and glomerulosclerosis is supported by numerous studies indicating that angiotensin receptor blockers (ARBs) retard the progression of these diseases in both experimental animal models and humans. Evidence indicates that Ang II contributes to atherogenesis at both transcriptional and translational levels by upregulating adhesion molecule mRNA and protein synthesis. The recent demonstration of Ang II AT(2) receptors in the adult kidney and their potential to oppose the vasoconstrictive, antinatriuretic, and profibrotic properties of AT(1) receptors suggests that the balance of intrarenal AT(1) and AT(2) receptors may be important in determining the cellular responses to Ang II in diabetic nephropathy. Results of these studies suggest that hypercholesterolaemia and hyperglycaemia can induce a pro-inflammatory response within coronary arteries and the kidney glomerulus. This response involves production of well described macrophage chemotactic and adhesion molecules, which results in macrophage recruitment and the development of acute and chronic injury. Glomerular macrophage recruitment in experimental diabetes occurs via Ang II-stimulated monocyte chemoattractant protein (MCP)-1 expression, suggesting that the renin-angiotensin system is an important regulator of local MCP-1 expression, and strongly implicating macrophage recruitment and activation in the pathogenesis of early diabetic glomerular injury. Diabetes-associated vascular complications may also involve an activation of the nuclear factor (NF)-kappaB by hyperglycaemia. NF-kappaB activation is related to AT(1) receptor-mediated pathways, and is believed to be dependent on activation of the Rho proteins belonging to the superfamily of low molecular weight guanosine triphosphatases (GTPases) that regulate intracellular signalling. Preincubation of vascular smooth muscle cells with insulin doubled NF-kappaB transactivation stimulated by Ang II and hyperglycaemia, suggesting a potential mechanism for crosstalk between the renin-angiotensin system and hyperglycaemia. Taken together, these data suggest that activation of the renin-angiotensin system is a mechanism for the initiation and progression of inflammatory cell infiltration found in early changes common to both hypercholesterolaemia and hyperglycaemia. While the base of information regarding ARBs in high-risk patients with diabetes and hypercholesterolemia is lacking, preclinical and pilot trial data suggest that the ARBs are reno- and vasculoprotective in these patients. Therapeutic blockade of Ang II AT(1) receptors in diabetic and hypercholesterolaemic humans by ARBs, with concomitant elevation in plasma and tissue Ang II levels, may provide vascular and renal protection not only by reducing AT(1) receptor-mediated pro-oxidative effects, but also by unopposed AT(2) receptor stimulation.
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PMID:[Pathophysiological and clinical implications of AT(1) and AT(2) angiotensin II receptors in metabolic disorders: hypercholesterolaemia and diabetes]. 1203 87

Long-term inhibition of nitric oxide synthase (NOS) in rats is known to cause systemic hypertension and renal parenchymal injury. We have previously reported that activation of intra-renal renin-angiotensin system was a major contributing factor for renal injury in chronically NOS-inhibited rats. Massive interstitial infiltration of monocytes/macrophages (M/M) was characteristically seen in this model. The present study was performed to elucidate the role of chemokines, RANTES and MCP-1, in promoting M/M recruitment into the renal cortex. The number of infiltrating ED-1-positive cells was examined in association with the level of expression of RANTES and MCP1 mRNAs in the renal cortex of rats treated orally for 12 weeks with L-NAME. Compared to controls rats, the number of infiltrating ED-1-positive cells was significantly higher in L-NAME-treated rats. The mRNA expressions of both RANTES and MCP-1 were significantly higher in L-NAME-treated rats than the control. In L-NAME-treated rats, the high number of ED-1-positive cells and increased expression of both RANTES and MCP-1 were suppressed by ACE inhibitor, but not by hydralazine. In contrast, neither ED-1 counts nor RANTES mRNA expression were affected by angiotensin (Ang) II type 1 receptor antagonist. These results suggest the likely involvement of RANTES and MCP-1 in the recruitment of M/M into the renal cortex of rats with chronic NOS inhibition. Furthermore, it is also indicated that Ang II stimulates MCP-1 expression via Ang II type 1 receptor, whereas RANTES expression is mediated via Ang II type 2 receptor.
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PMID:MCP-1 and RANTES are expressed in renal cortex of rats chronically treated with nitric oxide synthase inhibitor. Involvement in macrophage and monocyte recruitment. 1218 99

Quantitative in vitro autoradiography has identified high density ACE and AT(1) receptor binding at sites of cardiac injury in the adult rat, implicating Ang II, generated de novo at these sites (tissue Ang II) in contributing to repair. This hypothesis remains to be tested. In the study reported here we used a time-dependent rat model of cardiac injury wherein plasma levels of renin and Ang II are chronically suppressed by means of continuous treatment with aldosterone (0.75 microg/h) and 1% dietary NaCl. To further address a role for tissue Ang II in tissue repair, we administered oral valsartan (10 mg/kg/day) in combination with aldosterone/NaCl. On days 20 and 30 of each regimen, hearts were examined. In coronal sections, we assessed transcription factor NFkappaB activation (RelA subunit), inflammatory-cell infiltration and appearance of myofibroblasts by immunohistochemistry; mRNA expression of several inflammatory (NFkappaB-related) and fibrogenic (type I collagen) mediators of repair, using quantitative in situ hybridization; and ACE binding density, detected with quantitative in vitro autoradiography. Blood pressure was measured with a tail cuff. Untreated age- and sex-matched rats served as controls. On day 20, we found no evidence of cardiac injury, inflammation, or repair with aldosterone/NaCl treatment, with or without valsartan. In contrast, on day 30 of aldosterone/NaCl treatment, inflammatory cells and alpha-SMA-positive myofibroblasts colocalized with high-density ACE binding and histochemical evidence of fibrillar collagen accumulation at sites of microscopic scarring and perivascular fibrosis of intramyocardial coronary arteries that appeared in both right and left ventricles. The activation of NFkappaB and the increased mRNA expression of ICAM-1, MCP-1, TNF-alpha, TGF-beta(1), PAI-1, and type I collagen were also observed at these sites. Expression of vascular cell adhesion molecule-1 was unchanged. Valsartan significantly reduced (P <.01) the expression of these mediators and attenuated the expression of MCP-1. It reduced microscopic evidence of tissue damage and the extent of fibrosis. Blood pressure was increased in aldosterone-treated rats on days 20 and 30; this increase was suppressed by valsartan. We thus show that in this rat model of long-term aldosterone/NaCl administration, in which circulating Ang II is suppressed, AT(1) receptor-mediated actions of tissue Ang II are involved in regulating the expression of mediators of repair at vascular and nonvascular sites of cardiac injury, thereby implicating autocrine/paracrine properties of tissue Ang II in inflammatory and healing responses.
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PMID:Tissue angiotensin II in the regulation of inflammatory and fibrogenic components of repair in the rat heart. 1474 84

Inflammation is a key event in the development of atherosclerosis. Nuclear factor-kappaB (NF-kappaB) is important in the inflammatory response regulation. The effector peptide of the renin angiotensin system Angiotensin II (Ang II) activates NF-kappaB and upregulates some related proinflammatory genes. Our aim was to investigate whether other angiotensin-related peptides, as the N-terminal degradation peptide Ang IV, could regulate proinflammatory factors (activation of NF-kappaB and related genes) in cultured vascular smooth muscle cells (VSMCs). In these cells, Ang IV increased NF-kappaB DNA binding activity, caused nuclear translocation of p50/p65 subunits, cytosolic IkappaB degradation and induced NF-kappaB-dependent gene transcription. Ang II activates NF-kappaB via AT1 and AT2 receptors, but AT1 or AT2 antagonists did not inhibit NF-kappaB activation caused by Ang IV. In VSMC from AT1a receptor knockout mice, Ang IV also activated NF-kappaB pathway. In those cells, the AT4 antagonist divalinal diminished dose-dependently Ang IV-induced NF-kappaB activation and prevented IkappaB degradation, but had no effect on the Ang II response, indicating that Ang IV activates the NF-kappaB pathway via AT4 receptors. Ang IV also increased the expression of proinflammatory factors under NF-kappaB control, such as MCP-1, IL-6, TNF-alpha, ICAM-1, and PAI-1, which were blocked by the AT4 antagonist. Our results reveal that Ang IV, via AT4 receptors, activates NF-kappaB pathway and increases proinflammatory genes. These data indicate that Ang IV possesses proinflammatory properties, suggesting that this Ang degradation peptide could participate in the pathogenesis of cardiovascular diseases.
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PMID:Angiotensin IV activates the nuclear transcription factor-kappaB and related proinflammatory genes in vascular smooth muscle cells. 1583 14

AT(1) double receptor (AT(1A) and AT(1B)) knockout mice have lower blood pressure, impaired growth, and develop early renal microvascular disease and tubulointerstitial injury. We hypothesized that there would be an increased expression of vasoactive, profibrotic, and inflammatory mediators expressed in the kidneys of AT(1) double-knockout mice. We examined the renal expression of various mediator systems in control (n = 6) vs. double-knockout mice (n = 6) at 3-5 mo of age by real-time PCR, immunohistochemistry, and Western blot analysis. AT(1) double-knockout mice show activation of Th1-dependent pathways (with increased expression of IFN-alpha, IL-2 mRNA) with increased expression of both monocyte (MCP-1 mRNA) and T cell (RANTES mRNA) chemokines, infiltration of CD4(+) and CD11b(+) cells, increased fibrosis-associated mediators (CTGF, TGF-beta and TNF-alpha mRNA) and extracellular matrix (collagens I and III mRNA and protein) deposition compared with controls (P < 0.05 for all markers). These changes were associated with increased mRNA expression of endothelin (ET)-1 and ET-A receptor (P < 0.05), cyclooxygenase (COX)-2/TXA2 synthase (P < 0.05), NADPH oxidase (p40-phox, p67-phox, P < 0.05) and iNOS and nNOS (P < 0.05). COX-2 and nNOS protein were also increased in the kidneys of AT(1) double-knockout mice by Western blot analysis (P < 0.05). Although renin and angiotensinogen mRNA expression were increased in the knockout mice, AT(2) receptor mRNA expression was not significantly different from wild-type mice. In conclusion, the absence of the AT(1) receptor is associated with marked renal alterations in vasoactive, profibrotic, and immune mediators with an inflammatory pattern favoring a Th1 phenotype.
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PMID:Th1 inflammatory response with altered expression of profibrotic and vasoactive mediators in AT1A and AT1B double-knockout mice. 1592 10

Recent evidence indicates that the renin-angiotensin system (RAS) seems to play a considerable role in the development of tubulointerstitial (TI) lesions caused by hyperoxaluria (Hox). The purpose of the present study was to evaluate the specific mechanism by which Hox involving RAS induces chemokine and cytokine expression and, therefore, renal TI damage in the ethylene-glycol (ETG) induced hyperoxaluric rat model. Sprague-Dawley rats, separated into five groups, received: G1 regular water, and G2, G3, G4 and G5 1% ETG (a precursor for oxalates) in their drinking water for 4 weeks. An angiotensin converting enzyme inhibitor, benazepril (BZ) 10 mg/kg/day, angiotensin II receptor antagonists, subtype 1 (AT1) losartan (LOS) 40 mg/kg/day and subtype 2 (AT2) PD 123,319 (PD) 10 mg/kg/day, were administered daily to G3, G4 and G5, respectively. At the end of the study, the inflammatory response to Hox was evaluated using anti-NF-kappaB (p50), anti-IL-6, anti-MCP-1; anti-RANTES and anti-ED1 (monocytes/macrophages) in each group. In spite of the same urine oxalate levels, rats belonging to the hyperoxaluric groups treated with either BZ or LOS showed significantly (P<0.01) less TI lesions together with a lower immunoexpression of inflammatory mediators when compared with untreated hyperoxaluric animals. NF-kappaB (p50) was increased in tubular cells in the ETG group (43.6+/-8.7 positive cells/mm(2)) and was significantly (P<0.01) reduced by LOS (11.2+/-4 positive cells/mm(2)) and even more by BZ (6.1+/-2.4 positive cells/mm(2)). There was a significant (P<0.01) correlation between NF-kappaB (p50) positive cells and ED1 cells in the ETG group (r=0.88) and in the ETG+LOS group (r=0.92). LOS showed better control on IL-6 and MCP-1 with respect to untreated rats, while BZ showed the best control on RANTES and ED1 cells in comparison with untreated animals. Renal function was significantly (P<0.01) better preserved in BZ and LOS treated groups compared to both untreated animals and rats with PD, as indicated by creatinine clearance values. These results suggest that Hox stimulates the NF-kappaB cascade and, therefore, induces the overexpression of inflammatory mediators like IL-6, MCP-1, and RANTES. This pathway seems to be mediated not only by AT1 but also by AT2 receptors of angiotensin II.
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PMID:NF-kappaB and chemokine-cytokine expression in renal tubulointerstitium in experimental hyperoxaluria. Role of the renin-angiotensin system. 1628 84

Endothelial dysfunction (ED) complicates hypertension and is a precursor of atherosclerosis. Reduced NO bioactivity, because of increased reduced NAD(P)H oxidase-derived reactive oxygen species (ROS), plays a critical role in ED. gp91phox, predominantly expressed in the endothelium and adventitia, is a subunit of NAD(P)H oxidase important for its activation in response to angiotensin (Ang) II. Human atherosclerotic plaques are heavy laden with gp91phox. We have shown that in Dahl salt-sensitive (DS) rats, a paradigm of low renin salt-sensitive (SS) hypertension in humans, Ang II receptor blockade normalizes ROS production and endothelium-dependent relaxation (EDR) without significantly affecting systolic blood pressure (SBP). To additionally elucidate the mechanisms involved in the functional association of Ang II in SS hypertension, we administered a cell-permeable inhibitor of the assembly of p47phox with gp91phox in NAD(P)H oxidase, gp91ds-tat (10 mg/kg body weight, 3 weeks by minipump), to DS rats fed a 4% salt diet. Control rats received either vehicle or an inactive scramb-tat peptide. Vehicle-treated DS developed hypertension (SBP 168+/-5 mm Hg), left ventricular hypertrophy (LVH), proteinuria, impaired EDR, and increased aortic ROS production (superoxide 115% and peroxynitrite 157%) and expression of the proatherogenic molecules LOX-1 (130%) and MCP-1 (166%). gp91ds-tat, but not scramb-tat, normalized ROS and EDR, as well as LOX-1 and MCP-1, despite nonsignificant effects on SBP (159+/-5 mm Hg; P>0.05), left ventricular hypertrophy, and proteinuria. Our findings support the notion that in SS hypertension, activation of NAD(P)H oxidase promotes ED and atherogenesis via decreased nitric oxide bioactivity and increased LOX-1 and MCP-1, independent of blood pressure.
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PMID:Reduced NAD(P)H oxidase in low renin hypertension: link among angiotensin II, atherogenesis, and blood pressure. 1634 66


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