UMLS:C0004135 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

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

Angiotensin-converting enzyme inhibitors (ACEi) improve cardiac function and remodeling and prolong survival in patients with heart failure (HF). Blockade of the renin-angiotensin system (RAS) with an angiotensin II type 1 receptor antagonist (AT1-ant) may have a similar beneficial effect. In addition to inhibition of the RAS, ACEi may also act by inhibiting kinin destruction, whereas AT1-ant may block the RAS at the level of the AT1 receptor and activate the angiotensin II type 2 (AT2) receptor. Using a model of HF induced by myocardial infarction (MI) in rats, we studied the role of kinins in the cardioprotective effect of ACEi. We also investigated whether an AT1-ant has a similar effect and whether these effects are partly due to activation of the AT2 receptor. Two months after MI, rats were treated for 2 mo with: (a) vehicle; (b) the ACEi ramipril, with and without the B2 receptor antagonist icatibant (B2-ant); or (c) an AT1-ant with and without an AT2-antagonist (AT2-ant) or B2-ant. Vehicle-treated rats had a significant increase in left ventricular end-diastolic (LVEDV) and end-systolic volume (LVESV) as well as interstitial collagen deposition and cardiomyocyte size, whereas ejection fraction was decreased. Left ventricular remodeling and cardiac function were improved by the ACEi and AT1-ant. The B2-ant blocked most of the cardioprotective effect of the ACEi, whereas the effect of the AT1-ant was blocked by the AT2-ant. The decreases in LVEDV and LVESV caused by the AT1-ant were also partially blocked by the B2-ant. We concluded that (a) in HF both ACEi and AT1-ant have a cardioprotective effect, which could be due to either a direct action on the heart or secondary to altered hemodynamics, or both; and (b) the effect of the ACEi is mediated in part by kinins, whereas that of the AT1-ant is triggered by activation of the AT2 receptor and is also mediated in part by kinins. We speculate that in HF, blockade of AT1 receptors increases both renin and angiotensins; these angiotensins stimulate the AT2 receptor, which in turn may play an important role in the therapeutic effect of the AT1-ant via kinins and other autacoids.
...
PMID:Effects of angiotensin-converting enzyme inhibitors and angiotensin II type 1 receptor antagonists in rats with heart failure. Role of kinins and angiotensin II type 2 receptors. 910 37

The present study was undertaken to examine the effects of volume overload on cardiac gene expression and the possible role of angiotensin AT1 receptor in such expression. Cardiac volume overload was prepared by abdominal aortocaval shunt in rats. Rats with aortocaval shunt were treated with 1) vehicle, 2) an angiotensin AT1 receptor antagonist, CS-866 (10 mg/kg/d), or 3) an angiotensin-converting enzyme inhibitor, temocapril (10 mg/kg/d), for 7 days. Cardiac tissue mRNA was measured by Northern blot analysis with specific probes. Aortocaval shunt not only caused cardiac hypertrophy but also upregulated the gene expression of atrial natriuretic polypeptide, collagen III, and downregulated Ca(2+)-ATPase expression in the left ventricle. These changes were prevented by treatment with CS-866, while temocapril failed to normalize left ventricular Ca(2+)-ATPase expression. Unlike the left ventricle, the significant downregulation of alpha-myosin heavy chain and transforming growth factor-beta 3 by aortocaval shunt was observed in the right ventricle, and CS-866 normalized this decreased expression of transforming growth factor-beta 3. The left and right atria showed increased expression of collagen type I as well as of collagen type III and atrial natriuretic polypeptide, and these increases were more effectively prevented by CS-866 than by temocapril. Thus, the effects of cardiac volume overload on cardiac performance-related gene expression differ between the ventricles and atria. Our results suggest that AT1 receptor partially contributed to volume overload-induced changes in cardiac gene expression and that AT1 receptor antagonists and angiotensin-converting enzyme inhibitors have different effects in this model of cardiac hypertrophy.
...
PMID:Effects of angiotensin AT1 receptor antagonist on volume overload-induced cardiac gene expression in rats. 922 Feb 78

Although increased deposition of collagen proteins has been described in cardiomyopathy, little is known of the temporal relationship between events in collagen gene transcription and the occurrence of cardiac fibrosis, the removal of collagen by matrix metalloproteinases (MMPs), or of the regulation of these events by angiotensin AT1 receptors in this disease. We sought to study steady-state collagen mRNA abundance and the deposition of specific collagen subtypes in right and left ventricular muscle of Syrian cardiomyopathic (CMP) hamsters at different stages of cardiomyopathy. Using zymography, we also investigated the gelatinolytic activities of different MMPs to gain some information about collagen removal in experimental hearts. Finally, we investigated the effect of AT1 receptor blockade (losartan) on collagen remodeling. We observed that the mRNA levels of types I and III collagens were significantly increased in all four experimental groups (35, 65, 120, and 200 day) in left ventricular tissue when compared to control (F1-beta strain) values. The mRNA levels of these collagen species in experimental right ventricular tissue samples were only elevated significantly in the 35 and 200 day experimental groups when compared to controls. Fibrillar collagen deposition was elevated in left and right ventricular CMP samples after a lag period from the occurrence of corresponding increases in mRNA abundance. Although 2-week losartan treatment of 65, 120 and 200 day experimental groups had no significant effect on left ventricular fibrillar collagen concentration or collagen mRNA abundance when compared to vehicle-infused CMP hamsters, AT1 receptor blockade was associated with complete regression of cardiac hypertrophy. Both MMP-1 (54 kDa band) and MMP-2 (58 and 62 kDa bands) activities were increased in left ventricular CMP tissues at 65, 120 and 200 days when compared to F1-beta controls. Losartan treatment was associated with significant attenuation of MMP activities in cardiomyopathic samples at 65 and 120 days. Thus, elevation of mRNA abundance of fibrillar collagen genes occurs at very early stages in this model of cardiomyopathy, and corresponding collagen proteins were subsequently deposited in the cardiac interstitium at later stages. As collagen concentration was significantly increased in later stages of cardiomyopathy studied herein (120 and 200 day groups), our data support the hypothesis that collagen synthesis exceeds the capacity of collagen removal during the progression of cardiomyopathy. Nevertheless, cardiac collagen remodeling may be facilitated by elevated MMP activity in cardiomyopathic stages in this experimental model, and we suggested that attenuation of MMP activity in the presence of losartan may be a cardioprotective mechanism of this agent.
...
PMID:Cardiac collagen remodeling in the cardiomyopathic Syrian hamster and the effect of losartan. 923 38

Angiotensin II (Ang II) stimulates pathologic myocardial fibrosis. Cardiac fibroblasts (CFb) and myofibroblasts mediate this response, perhaps in part by indirect production of specific cytokines. We sought to determine if Ang II could stimulate transforming growth factor-beta1 (TGF-beta1) gene expression and protein production in adult rat CFb and two cardiac myofibroblast cell types, scar myofibroblasts (MyoFb) and valvular interstitial cells (VIC). Confluent CFb, MyoFb, and VIC in serum-deprived (0.4% FCS) media were treated with Ang II (10(-7) m for CFb; 10(-9) m for MyoFb, VIC) for 24 h. Untreated cells served as controls. Culture media was collected and TGF-beta1 levels determined in triplicate using a sandwich ELISA. Reverse transcriptase-polymerase chain reaction (RT-PCR) analysis was performed to determine TGF-beta1 mRNA expression. Ang II increased CFb (P<0.02) and VIC (P<0.04) TGF-beta1 mRNA expression, while the increase in MyoFb was not statistically significant. MyoFb produced the highest TGF-beta1 levels under control conditions compared to VIC and CFb. Ang II stimulated further TGF-beta1 secretion in VIC and CFb, but not MyoFb. The AT1 receptor antagonist Losartan (10(-7) m) greatly attenuated Ang II-stimulated TGF-B1 secretion and decreased TGF-beta1 immunostaining in VIC. The AT2 receptor antagonist PD123177 (10(-7) m) also decreased secretion and immunostaining of TGF-beta1 in VIC, but to a lesser extent than Losartan. TGF-beta1 secretion by MyoFb was unaffected by Losartan and PD123177, although TGF-B1 immunostaining was absent or greatly decreased, respectively, compared to Ang II-treated MyoFb. Ang II stimulates TGF-beta1 gene expression and/or protein production in cardiac fibroblast-like cells which may act as an autocrine/paracrine stimulus to collagen formation. Furthermore, TGF-beta1 production and secretion in these cells can be modulated by specific Ang II receptor antagonists, suggesting a potential benefit in preventing/attenuating pathologic myocardial fibrosis.
...
PMID:Angiotensin II stimulated expression of transforming growth factor-beta1 in cardiac fibroblasts and myofibroblasts. 923 48

Angiotensin II (Ang II), a potent vasoactive peptide with mitogenic potential, influences vascular smooth muscle cell contraction and growth through receptor-linked pathways that increase intracellular free Ca2+ concentration ([Ca2+]i) and pH (pHi). Activation of these second messengers by Ang II may involve tyrosine kinase-dependent signaling pathways. This study determined the role of tyrosine kinases in Ang II-stimulated pHi, and in simultaneously measured contractile and [Ca2+]i responses, as well as growth in cultured vascular smooth muscle cells from mesenteric arteries of Wistar-Kyoto rats. pHi was determined by fluorescent digital imaging using 2',7'-bis(2-carboxyethyl)-5(6)-carboxyfluorescein acetoxymethyl ester (BCECF-AM). Vascular smooth muscle cell [Ca2+]i and contractile responses were assessed simultaneously by fura 2 methodology and by photomicroscopy in cells grown on rat tail collagen gels. Cell growth was determined by DNA and protein synthesis as measured by [3H]thymidine and [3H]leucine incorporation, respectively. The Ang II receptor subtypes (AT1 or AT2) through which Ang II mediates effects were assessed with [Sar1,Ile8]Ang II (a nonselective subtype antagonist), losartan (a selective AT1 antagonist), and PD 123319 (a selective AT2 antagonist). To determine whether tyrosine kinases influence Ang II-stimulated responses, cells were pretreated with 10(-5) mol/L tyrphostin A-23 (a specific tyrosine kinase inhibitor). Ang II increased pHi in a dose-dependent manner (pD2, 9.2+/-0.2) and significantly increased vascular smooth muscle cell contraction (30%) and [Ca2+]i (pD2, 7.4+/-0.1). Ang II (10(-7) mol/L) increased DNA ([3H]thymidine incorporation) and protein synthesis ([3H]leucine incorporation). [Sar1,Ile8]Ang II and losartan but not PD 123319 abolished Ang II-elicited responses. Tyrphostin A-23 significantly attenuated Ang II-stimulated pHi responses; it also inhibited [Ca2+]i and contractile responses and cell growth. The inactive analogue tyrphostin A-1 did not alter Ang II-stimulated actions. These results provide novel evidence for a role of tyrosine kinases in Ang II-mediated pHi responses in vascular smooth muscle cells and indicate that tyrosine kinases participate in the regulation of signal transduction associated with AT1 receptor subtype-mediated contraction and growth.
...
PMID:Angiotensin II regulates vascular smooth muscle cell pH, contraction, and growth via tyrosine kinase-dependent signaling pathways. 926 Sep 84

We tested the hypothesis that angiotensin-converting enzyme (ACE) inhibitor therapy prevents volume-overload hypertrophy in dogs with chronic mitral regurgitation (MR). Seven adult mongrel dogs receiving ramipril (R; 10 mg orally, twice/day) for 4 mo were compared with 11 dogs receiving no R (N) for 4 mo after induction of MR. Cine-magnetic resonance imaging demonstrated that left ventricular (LV) mass increased in the R-MR dogs [80 +/- 4 (SE) to 108 +/- 7 g, P < 0.01] and in the N-MR dogs (92 +/- 7 to 112 +/- 8 g, P < 0.001). LV myocyte cell length was greater in the R-MR and N-MR dogs (203 +/- 6 and 177 +/- 10 microns, respectively) than in normal (144 +/- 4 microns, P < 0.05) dogs. There was significant loss of the collagen weave pattern by scanning electron microscopy in both R-MR and N-MR dogs. LV ACE and chymase activities were significantly elevated in R-MR and N-MR compared with normal dogs. LV angiotensin II (ANG II) levels in the R-MR dogs (28 +/- 12 pg/g) were reduced to levels seen in normal dogs (28 +/- 4 pg/g) compared with N-MR dogs (72 +/- 11 pg/g, P < 0.05). Steady-state AT1-receptor mRNA levels decreased 66% in N-MR compared with normal dogs (P < 0.001) and increased 1.5-fold in R-MR compared with normal dogs (P < 0.01). Thus upregulation of the AT1 receptor in the R-MR hearts may provide a mechanism by which normal intracardiac ANG II levels could continue to mediate LV hypertrophy. However, the mechanism of dissolution collagen weave in both N-MR and R-MR hearts may be related to the stretch of volume overload.
...
PMID:Volume-overload cardiac hypertrophy is unaffected by ACE inhibitor treatment in dogs. 927 16

Myofibroblasts (myoFb) are cells responsible for fibrous tissue formation in injured systemic organs such as the heart. Cultured myoFb, obtained from rat cardiac scar tissue, express genes that encode components requisite for angiotensin (Ang) II generation, which in turn regulates myoFb collagen turnover in an autocrine/paracrine manner. In this study, we tested the hypothesis that these wound-healing fibroblast-like cells and locally generated Ang II are involved in other repairing tissue. To test this hypothesis, we used a granuloma pouch model, where a subcutaneous air sac is created followed by injection of croton oil. Pouch tissue was collected at days 4, 7, 14 and 21. The presence of myoFb was determined by immunohistochemical alpha-smooth muscle actin (alpha-SMA) labeling and collagen accumulation by picrosirius red staining. Angiotensin converting enzyme (ACE) and Ang II receptor binding were detected by in vitro quantitative autoradiography using 125I-351A and 125I[Sar1, Ile8]Ang II, respectively, while Ang II receptor subtype was defined by displacement studies using either an AT1 (losartan) or AT2 (PD123177) receptor antagonist. Cells expressing ACE were determined by immunohistochemistry. Ang II content in pouch tissue was measured by radioimmunoassay following HPLC separation while its capacity to generate Ang II was assessed in tissue bath, with and without exogenous Ang I or lisinopril, an ACE inhibitor. Collagen accumulation in pouch tissue was examined by determining hydroxyproline content in response to lisinopril, AT1 or AT2 receptor antagonists (losartan or PD123177). In pouch tissue, we found: (1) myoFb at day 4 which became more extensive at days 7, 14 and 21; (2) morphologic evidence of collagen deposition evident at day 4, which gradually became more extensive thereafter; (3) ACE and Ang II receptor binding was evident at day 4 and remained invariant on days 7, 14 and 21; (4) the predominant Ang II receptor subtype expressed was AT1; (5) myoFb express ACE and AT1 receptors; (6) picogram quantities of Ang II (per g tissue) was evident on days 7, 14 and 21; and (7) Ang II was generated from Ang I substrate. Lisinopril and losartan, but not PD123177, significantly attenuated pouch weight and accumulation of collagen. Thus, in this model of cutaneous repair, the appearance of myoFb is associated with Ang II generation that regulates fibrogenesis by AT1 receptor binding. Signals involved in the appearance of myoFb remain uncertain. Further studies are required to address the regulation of Ang II generation in pouch tissue of the rat.
...
PMID:Fibrous tissue and angiotensin II. 928 34

Cellular processes leading to renal tubular hypertrophy may contribute to the development of progressive renal disease. Angiotensin II (ANG II) is a prime agent that has been linked to the progression of renal disease by a host of mechanisms, including the induction of tubular epithelial hypertrophy and stimulation of extracellular matrix biosynthesis. All components of a functional renin-angiotensin system reside within the renal tubule. Epithelial cells exhibit distinct patterns of growth behavior after stimulation with ANG II (namely, hypertrophy of proximal tubule segments and proliferation of more distal segments). The hypertrophic action of ANG II is mediated through high-affinity AT1-receptors, involves activation of pertussis-toxin sensitive G1 proteins, and depends on a decrease in intracellular cAMP. In addition, ANG II induces sequential activation of MAP kinases and S6 kinase, and leads to activation of early immediate genes and the modulation of a series of cyclins and cyclin-dependent kinases. There is also compelling evidence that the ANG II-induced epithelial hypertrophy and the stimulated-synthesis of collagen type IV are mediated by increased transcription and production of TGF-beta. ANG II-mediated inhibition of protein degradation may further increase protein content. The hypertrophic response to ANG II is greater in medium with high glucose concentration. Blockade of the action of ANG II prevents the renal hypertrophy and the tubulointerstitial fibrosis in animal models of chronic renal diseases (independent of changes in systemic or glomerular hemodynamics), in part through interception of ANG II-mediated induction of TGF-beta expression.
...
PMID:Renal tubular hypertrophy induced by angiotensin II. 931 13

For heart, kidneys, lungs and liver alike, fibrosis represents a common pathway to their failure. Understanding pathophysiologic mechanisms involved in organ fibrosis are therefore of considerable interest, particularly given the potential for protective pharmacological strategies. Tissue repair involves inflammatory cells, including members of the monocyte/macrophage lineage, integral to initiating the repair process; and myofibroblasts, phenotypically transformed interstitial fibroblasts, responsible for collagen turnover and fibrous tissue formation. Each of these cellular events in the microenvironment of repair are associated with molecular events that lead to the de novo generation of angiotensin II (ANG II). In an autocrine/paracrine manner, this peptide regulates expression of TGF-beta 1 via angiotensin (AT1) receptor-ligand binding. It is this cytokine that contributes to phenotypic conversion of fibroblasts to myofibroblasts (myoFb) and regulates myofibroblast turnover of collagen. Angiotensin-converting enzyme (ACE) inhibition or AT1 receptor antagonism each prevent many of these molecular and cellular responses that eventuate in fibrosis and therefore have been found to be protective interventions.
...
PMID:Fibrosis, a common pathway to organ failure: angiotensin II and tissue repair. 931 15

We administered angiotensin (Ang) II receptor type 1 (AT1) blockade (losartan; 10 or 40 mg/kg per day), type II receptor (AT2) blockades (PD123319; 100 mg/kg per day), or angiotensin-converting enzyme (ACE) inhibitor (enalapril; 30 mg/kg per day) to spontaneously hypertensive rats (SHR) from 10 to 20 weeks of age. At the end of the treatment, high doses of losartan and enalapril significantly reduced the arterial systolic blood pressure compared with the untreated SHR to the level of WKY rats. But low doses of losartan and PD123319 were without effect. High doses of losartan and enalapril also significantly reduced both the left ventricular (LV) weight and the ratio of LV to body weight compared with the untreated SHR, which were still larger than that of WKY rats. However, the collagen concentration of SHR treated with high doses of losartan or enalapril was completely reduced to the level of WKY rats. Using reverse transcription polymerase chain reaction, we examined the mRNA expression for ACE, AT1, and AT2 in experimental animals. The enhanced AT1 mRNA expression was significantly decreased in the SHR treated with a high dose of losartan or PD123319 compared with the untreated SHR. The level of ACE mRNA was also decreased in the SHR treated with a high dose of losartan or enalapril. The level of AT2 mRNA was not significantly different between the Wistar-Kyoto rats and the SHR; however, this expression was decreased significantly after the treatment with a high dose of losartan or PD123319. These results indicate that AT1 receptor and ACE, but not AT2 receptor, play a crucial role in the remodeling of matrix tissue but a smaller role in the development of the hypertrophy of LV myocyte in SHR and that the LV/body weight changes do not fully account for the complete suppression of hypertension.
...
PMID:Molecular mechanism of angiotensin II type I and type II receptors in cardiac hypertrophy of spontaneously hypertensive rats. 933 75

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>