UMLS:C0004135 - FACTA Search

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Query: UMLS:C0004135 (ATM)
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Thyroid dysfunction produces marked cardiovascular responses; the renin-angiotensin system (RAS) is important in control of the cardiovascular system. We have measured changes in the plasma RAS and in angiotensin II (AT) receptors in experimentally hyperthyroid, euthyroid, or hypothyroid rats. Hyperthyroidism activated the plasma RAS, increasing plasma angiotensinogen by 85% after 7-day triiodothyronine (T3) treatment, plasma renin activity (PRA) by 47% and concentration by 52%, and plasma AT by 1.250%. Hypothyroidism reduced plasma angiotensinogen by 71%, PRA by 73%, and plasma AT by 81% without altering plasma renin concentration (PRC). Plasma aldosterone was reduced by 39% in hyperthyroid rats and by 95% in hypothyroid rats. AT receptors were characterized in heart, liver, adrenal gland, and kidney. Cardiac, liver, and kidney AT receptor densities increased in hyperthyroidism by 73, 113, and 75%, respectively; adrenal gland receptor density decreased by 39%. Similar results were observed in hypothyroidism except that adrenal gland receptor density was markedly increased by 205%. AT receptor subtypes were characterized in ventricular homogenates by the selective antagonist losartan. Hyperthyroidism markedly increased AT2-subtype density by 204% in left ventricle, and by 304% in right ventricle and decreased AT1-subtype density by 38% and 31% in left and right ventricles, respectively. AT2-subtype density increased by 168% in hypothyroid rats; AT1-subtype density was unchanged. Thyroid dysfunction causes significant changes in the RAS and in AT receptor density, especially of the AT2 subtype. Although a physiological function has not yet been reported for AT2 receptors, our results suggest that selective AT2-receptor antagonists may prove therapeutically useful in treatment of cardiovascular disease in thyroid dysfunction.
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PMID:Renin-angiotensin system in thyroid dysfunction in rats. 750 37

Numerous essential, physiological effects on the cardiovascular system are attributable to angiotensin II (Ang II). Because of this we can assume that genetic changes in the specific receptor of Ang II (Ang II type 1 receptor gene, AT1) play a decisive role in the occurrence of cardiovascular disease associated with blood pressure regulation, vascular tone, cardiac and vascular growth process. To test this hypothesis, we examined the presence of polymorphisms within the coding region of the AT1 gene using polymerase chain reaction (PCR) and subsequent non-radioactive sequencing of samples from a control group with no previous history of cardiovascular complaint in individuals or immediate family. Using the Taq-sequencing procedure we found polymorphic sites, especially in the 5' region of the gene (base pair positions 9, 16, 87, 133, 186), two of which led to an exchange of the amino acid (amino acid 6: Ser<==>Pro, amino acid 45: Gly<==>Arg). Together with the silent polymorphism at base pair position 573, which our group established previously, an additional polymorphism in the 3' region of the gene was discovered. This, however, did not confer any changes in amino acid sequence. In a preliminary study we found no association between the distribution of the C/T573 polymorphic site and cardiovascular disease, such as essential hypertension (n = 20) coronary artery disease (n = 16) hypertrophic cardiomyopathy (n = 12) or dilated cardiomyopathy (n = 21). Further studies will be needed to determine to what extent the polymorphisms described are associated with cardiovascular disease.
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PMID:Genetic polymorphisms of the angiotensin II type 1 (AT1) receptor gene. 771 99

The heart is composed of highly differentiated cardiac myocytes, which constitute parenchyma, and stroma or connective tissue. Fibrillar collagen turnover in the heart and its valve leaflets, in particular, is dynamic and essential to tissue repair. Emerging evidence further suggests connective tissue is a metabolically active entity, where peptide hormones are generated and degraded and, in turn, these peptides regulate collagen turnover. This concept arose from quantitative in vitro autoradiography using an iodinated derivative of lisinopril (125I-351A) as ligand to localize angiotensin converting enzyme (ACE) binding density within the heart. A heterogeneous distribution was found: low-density ACE binding within atria and ventricles; high ACE binding density at sites of high collagen turnover, such as valve leaflets, adventitia, and fibrous tissue of diverse etiologic origins. ACE-producing cells at these latter sites were identified by monoclonal ACE antibody. They included valvular interstitial cells (VIC) and fibroblast-like cells each of which also contained alpha-smooth muscle actin and the transcript for type I collagen (in situ hybridization). Substrate utilization in cultured VIC was found to include angiotensin I and bradykinin. Angiotensin II and bradykinin receptor-ligand binding was observed in VIC and at fibrous tissue sites. Connective tissue ACE is independent of circulating angiotensin II. In vivo, fibrous tissue formation is attenuated by ACE inhibition or antagonism of AT1 receptor. Angiotensin II and bradykinin are stimulatory and inhibitory, respectively, to cultured adult cardiac fibroblast collagen synthesis suggesting a paradigm of reciprocal regulation to fibroblast collagen turnover. Stroma and its cellular constituents represent a dynamic metabolic entity that regulates its own peptide hormone composition and turnover of fibrillar collagen. These findings may provide insights that could be used to advantage to either promote or forestall fibrous tissue formation depending on the nature of cardiovascular disease.
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PMID:Connective tissue and repair in the heart. Potential regulatory mechanisms. 775 73

Angiotensin II is a major regulator of cardiovascular function, fluid homeostasis and also plays a role in long-term cardiovascular disease processes. At present it is unclear if and how the diverse functions of angiotensin II may relate to different cellular receptors for this vasoactive peptide. In order to identify subtypes of angiotensin receptors we used a PCR-mediated cloning approach. Oligonucleotide sequences for PCR amplification of angiotensin receptors were selected on the basis of nucleotide sequences conserved between species. Since the coding regions of AT1-type receptors appear to be located on a single exon, we used genomic DNA as a template in the PCR reactions. Resulting amplification products represented a mixture of four different sequences as assessed by T-tracking and sequencing of the partial clones. Three of the clones encode for sequences already known, whereas the fourth clone encoded a novel receptor subtype which we have termed AT1C. Deduced amino acid sequences of the four different receptor subtypes are highly homologous. The AT1C receptor nucleotide sequence homology was greatest to the described AT3 receptor (95%) and less so to the published AT1A (90%) and AT1B (82%) receptor subtypes. The variety and tissue- specific expression of AT1 receptor subtypes and coexpression of different receptor subtypes may account for the diverse tissue- specific actions of angiotensin.
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PMID:Identification of a fourth angiotensin AT1 receptor subtype in rat. 850 97

Angiotensin II (AII), acting via its G-protein linked receptor, is an important regulator of cardiac, vascular, and renal function. Following injection of AII into rats, we find that there is also a rapid tyrosine phosphorylation of the major insulin receptor substrates 1 and 2 (IRS-1 and IRS-2) in the heart. This phenomenon appears to involve JAK2 tyrosine kinase, which associates with the AT1 receptor and IRS-1/IRS-2 after AII stimulation. AII-induced phosphorylation leads to binding of phosphatidylinositol 3-kinase (PI 3-kinase) to IRS-1 and IRS-2; however, in contrast to other ligands, AII injection results in an acute inhibition of both basal and insulin-stimulated PI 3-kinase activity. The latter occurs without any reduction in insulin receptor or IRS phosphorylation or in the interaction of the p85 and p110 subunits of PI 3-kinase with each other or with IRS-1/IRS-2. These effects of AII are inhibited by AT1 receptor antagonists. Thus, there is direct cross-talk between insulin and AII signaling pathways at the level of both tyrosine phosphorylation and PI 3-kinase activation. These interactions may play an important role in the association of insulin resistance, hypertension, and cardiovascular disease.
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PMID:Cross-talk between the insulin and angiotensin signaling systems. 890 9

1. The availability of orally active specific angiotensin receptor antagonists (AT1 antagonists) has opened new therapeutic choices and provided probes to test the specific role of the renin-angiotensin system in the pathogenesis of cardiovascular disease. 2. The data available so far suggest that the antihypertensive efficacy of angiotensin receptor antagonists is comparable to that of angiotensin-converting enzyme (ACE) inhibitors. This provides further evidence that this latter class of drugs exerts its effect mainly through blockade of the renin-angiotensin enzymatic cascade. As expected, the association of a diuretic exerts an equally strong additive effect to the antihypertensive efficacy of both classes of drugs. 3. The most common side effect of ACE inhibitors, dry cough, does not occur with AT1 antagonists, which confirms the long-held view that this untoward effect of the ACE inhibitors is due to renin-angiotensin-independent mechanisms. 4. Long-term studies with morbidity/mortality outcome results are needed, before a definite position can be assigned to this newcomer in the orchestra of modern antihypertensive drugs. Notwithstanding, this new class of agents already represents an exciting new addition to our therapeutic armamentarium.
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PMID:Experience with angiotensin II antagonists in hypertensive patients. 899 54

Antisense oligonucleotide (AS-ODN) inhibition of angiotensin receptors (AT1-R) offers a potentially novel therapeutic approach for hypertension, left ventricular hypertrophy and other aspects of cardiovascular disease. To clarify questions concerning cellular uptake and retention of these oligos, we quantified the trafficking and stability of phosphorothioated modified AS-ODN to AT1 receptor mRNA in adrenal cells, using visual and chromatographic analysis. The AS-ODN to AT1 receptor mRNA was effective in significantly inhibiting AT1 receptor binding in a dose dependent manner. FITC-labeled ODNs were used to determine the cellular uptake in bovine adrena cortex cells; using confocal microscopy, rapid cellular uptake of 15-mer ODNs was observed. Uptake is initially rapid (30 min to 4 h) followed by a slower uptake process 24 h and after. The cellular accumulation of ODN involves a dynamic balance between influx and efflux processes. Efflux of FITC-ODN had a f1/2 = 4.6 days. Uptake was time and dose dependent. No obvious degradation of intracellular ODNs occurred as shown by intact peaks for 15-mer ODN on thin layer chromatography. The results suggest that the AS-ODN to AT1 receptor mRNA was resistant to cellular nucleases. The FITC-ODN accumulated mainly in the nucleus and remained there intact for up to 3 days. No significant change in target mRNA was observed by quantitative RT-PCR. Therefore the antisense inhibition mechanism of this ODN does not appear to stimulate RNase H or block transcription. Since the ODN accesses the nucleus, the results imply that the ODN inhibits specific mRNA transport into the cytoplasm. The data show that AS-ODN, for inhibition of AT1 receptors, is rapidly taken up and stable in cells and produces specific inhibition of AT1 receptors.
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PMID:Uptake and efflux of intact antisense phosphorothioate deoxyoligonucleotide directed against angiotensin receptors in bovine adrenal cells. 924 81

Our recent studies have shown that the nonpeptide angiotensin II (Ang II) antagonist losartan interacts with thromboxane A2/prostaglandin H2 receptors and inhibits the thromboxane A2 (TxA2) analog U46619-induced vasoconstriction in canine coronary arteries. In this study, we further investigated whether losartan prevents TxA2-induced platelet aggregation and vasoconstriction in spontaneously hypertensive rats (SHRs). Pretreatment with losartan (10 microM) significantly reduced U46619-induced, concentration-dependent washed platelet aggregation. The inhibition is specific for losartan, because another Ang II AT1-receptor antagonist, CV11974 (10 microM), an active metabolite of TCV116, did not block the platelet aggregation caused by U46619. In addition, losartan (10 microM) augmented acetylcholine (ACH)-induced nitric oxide (NO)-dependent vasodilation and abolished the ACH-induced endothelium-derived contracting factor (EDCF)-mediated vasoconstriction in the aortic rings from adult SHRs. U46619 produced dose-dependent vasoconstriction in aortic vessels of SHRs, which was demonstrated to be blocked by the potent, selective TxA2/PGH2 receptor antagonist SQ29,548. Pretreatment with losartan (10(-6)-10(-5) M) inhibited the contractile response of U46619 and shifted the concentration-response curve to the right in a dose-dependent manner. The effective concentration at half maximal contraction (EC50) of U46619 was increased 2.5- and 7.6-fold in the presence of 1 and 10 microM losartan, respectively, without changes in maximal contraction. The active metabolite of losartan, EXP3174, at 1 microM also competitively inhibited U46619-induced contractions in aortic rings of SHRs. In contrast, neither the AT1-receptor antagonist CV11974, the AT2 antagonist PD123319, nor the angiotensin-converting enzyme inhibitor lisinopril, each at concentrations of 1 microM, had any effect on the U46619-induced constriction in aortic rings. In conclusion, losartan, acting as both AT1- and TxA2/PGH2-receptor antagonists, may enhance its therapeutic profile in the treatment of hypertension and cardiovascular disease.
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PMID:Losartan inhibits thromboxane A2-induced platelet aggregation and vascular constriction in spontaneously hypertensive rats. 970 Sep 80

At the present time we cannot assume that the proven benefits of ACEI on renal disease will be reproduced by using AT1-ra. With potentially differing modes of activity of these drugs, they cannot be seen as interchangeable and ACEI should remain the drug of choice in patients with progressive renal disease unless they are not tolerated. It is possible that AT1-ra may offer additional advantages in some patients or that synergy exists between the two agents, but this view will remain entirely speculative unless proper trials are conducted. Despite the results of the ELITE study [22], the uncertainty regarding the use AT1-ra in cardiovascular disease mirrors that of renal disease. This issue is obviously of relevance to the nephrologist in view of the spectrum of cardiac disease that accompanies chronic renal failure, such as left ventricular hypertrophy and cardiac failure, which provide multiple indications for manipulation of RAS. Despite their renoprotective effect, previous studies on ACEI [3,4] have not shown an overall reduction in mortality and this issue needs to be addressed in addition to renoprotection in studies comparing AT1-ra and ACEI.
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PMID:Angiotensin converting enzyme inhibitors and angiotensin receptor (AT1) antagonists: either or both for primary renal disease? 1005 68

Extracellular signal-regulated kinases (ERKs) and c-jun NH2-terminal kinases (JNKs), which belong to the family of mitogen-activated protein kinases (MAPKs), play a key role in the regulation of cell growth or apoptosis or various gene expressions. In spite of the critical importance of MAPKs for cell function in vitro, the role of MAPKs in the pathophysiology of the cardiovascular system in vivo is poorly understood. Recently, we have examined the activities of MAPKs in various cardiovascular disease models. JNKs activity is chronically enhanced in cardiac hypertrophy of hypertensive rats or angiotensin II-infused rats, which is followed by the increase in activator protein-1 (AP-1) activity composed of c-Fos and c-Jun proteins. In chronic hypertensive rats, vascular ERKs and JNKs activities are continuously increased compared with normotensive rats, with the development of vascular thickening. Furthermore, balloon injury rapidly and transiently activates vascular ERKs and JNKs, followed by the activation of AP-1. This activation of ERKs and JNKs in injured artery is in part mediated by angiotensin AT1 receptor. Thus, the enhanced activation of JNKs or ERKs occurs in various cardiovascular disease models, supporting the notion that MAPKs may be a useful target for treatment of cardiovascular hypertrophy and remodeling.
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PMID:Activation of mitogen-activated protein kinases in cardiovascular hypertrophy and remodeling. 1044 May 27

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