UMLS:C0004153 - FACTA Search

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Query: UMLS:C0004153 (atherosclerosis)
77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Plasma renin activity (PRA) stimulated by upright posture was measured, in 300 men aged 45-64 years, by a radio-immunoassay of angiotensin I. The subjucts examined were divided into six groups, comparable in mean age, each containing 50 subjects: group 1, normotensives without manifest atherosclerosis; group 2, normotensives with angina pectoris definite; group 3, normotensives with a history of a transmural myocardial infarction; groups 4 to 6, patients with benign essential hypertension, without manifest atherosclerosis in group 4, with angina pectoris in group 5 and with a history of myocardial infarction in group 6. Significant differences in mean PRA were found between corresponding groups of hypertensives and normotensives, the values in hypertensives being lower. The precentage of low renin values was higher in hypertensives with ischaemic heart disease than in other groups. An analysis of 3-year cardiovascular mortality revealed no significant difference in mortality due to ischaemic heart disease between high-renin and low renin sub-groups.
Atherosclerosis 1977 May
PMID:Plasma renin activity in men with relation to the presence of ischaemic heart disease. 85 14

One of the major consequences of hypertension is an increase in the thickness of the arterial medial smooth muscle cell layer. This has been shown in both large and medium size resistance vessels caused by smooth muscle cell hypertrophy. Both in vivo and in vitro data suggest that the vasoconstrictor peptide angiotensin II (Ang II) may play an important role in the development of the smooth muscle hypertrophy. We have demonstrated that Ang II, when added to quiescence cultures of vascular smooth muscle cells, results in the rapid induction of the early growth response genes c-fos, c-myc, and c-jun. This is due to new transcription as demonstrated by nuclear runoff transcription assay, but is not dependent on new protein synthesis, as it is not blocked by the addition of cycloheximide. The effect is due, however, to an increase in intracellular calcium, suggesting that any vasoconstrictor which results in an increase in intracellular calcium may act in this manner. Following the induction of the early growth response genes there is delayed induction of the platelet derived growth factor A-chain gene. Data from our laboratory and from that of others has shown in preliminary studies that blockade of either the Ang II-induced increases in c-fos or in the platelet-derived growth factor A-chain increases smooth muscle cell protein synthesis. This suggests that Ang II and other vasoconstrictors may play an important role in vascular smooth muscle growth, in hypertension and also in atherosclerosis and following balloon injury of the arterial wall.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The role of angiotensin II in vascular smooth muscle cell growth. 138 Jun 17

Factors that can influence cardiovascular growth are becoming increasingly important for our understanding of such complex diseases as cardiac hypertrophy, coronary artery disease, atherosclerosis, and hypertension. Several proto-oncogenes were found to be involved in the regulation of abnormal cell growth in cardiovascular disease. It is also evident that some peptide hormones, which are well known to be involved in blood pressure control, may play a role as growth modulators. Angiotensin II is one such peptide. It elevates blood pressure through its direct vasoconstrictor, sympathomimetic, and (through release of aldosterone) sodium-retaining activity but also appears to have mitogenic actions. Interestingly, all components of the renin-angiotensin system were found locally in cardiovascular tissues. The question remains whether angiotensin can act directly as a growth factor or whether it does so indirectly by influencing or modulating cell growth factors. A better understanding of the renin-angiotensin system as a direct or indirect mediator for cardiovascular hypertrophy would offer new and interesting insights into the pathophysiology of hypertension and possibly novel options for the treatment of cardiovascular disease.
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PMID:The molecular basis of cardiovascular hypertrophy: the role of the renin-angiotensin system. 138 95

A universal underlying abnormality in the pathogenesis of hypertension, atherosclerosis, myocardial dysfunction, and diabetic glomerulosclerosis involves alteration in smooth muscle cell structure, function, and growth. Angiotensin II, through its effects on contractility, growth, and the sympathetic nervous system, may potentially play a key role in this pathologic process and, thus, contribute to the development of these cardiovascular and renal complications of diabetes mellitus. Angiotensin-converting enzyme inhibitors and some direct renin inhibitors prevent or slow the progression of some of these complications, which further suggests a pathologic role for the reninangiotensin system in diabetes mellitus.
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PMID:Effect of the renin-angiotensin system in the vascular disease of type II diabetes mellitus. 158 Feb 75

Calcium antagonists retard the development of atherosclerosis in cholesterol-fed rabbits and modestly enhance regression after their return to a normal diet. Proliferative lesions following endothelial damage (from, for example, balloon catheter, electrical stimulation) are also diminished. Many mechanisms for these effects have been proposed and their relative importance is not yet clear. However, changes in blood lipid levels do not play an important role. Only a few investigations into how atherosclerosis affects the hemodynamic actions of calcium antagonists have been carried out. Thus, the effects of isradipine were compared in atherosclerotic and normal rabbits. Isradipine increased heart rate and cardiac output less in atherosclerotic rabbits than in normal ones while having no effect on the surface electrocardiogram (ECG). In contrast, the arteriolar vasodilator, dihydralazine, induced ST-segment depression with similar falls in blood pressure, partly explainable by reflex tachycardia and intramyocardial maldistribution of coronary blood flow. Flow to the brain increased with isradipine and decreased with dihydralazine. In atherosclerotic animals, the pressor effects of norepinephrine, phenylephrine, and angiotensin II (Ang II) were amplified. Isradipine partly corrected this enhanced responsiveness. Calcium antagonists thus elicit beneficial hemodynamic and antivasoconstrictor effects in atherosclerotic experimental animals, in addition to having a long-term prophylactic antiatherosclerotic action.
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PMID:Hemodynamic, antivasoconstrictor, and antiatherosclerotic effects of calcium antagonists in animal models of atherosclerosis. 169 7

A role for angiotensin II (Ang II) in the pathogenesis of hypertension and atherosclerosis was studied using cultured vascular smooth muscle cells from spontaneously hypertensive rats. Chronic exposure of vascular smooth muscle cells, cultured in the presence of 1% plasma-derived serum, to Ang II resulted in a dose-dependent stimulation in growth and incorporation of radiolabeled matrix precursors into extracellular matrix-associated glycoconjugate material. The hormone also stimulated the incorporation of [3H]glycine into extracellular matrix glycoproteins and proteoglycans synthesized by cultures rendered quiescent by maintenance on serum-free medium for 48 h prior to exposure to Ang II. This was negated in the presence of saralasin. In quiescent cultures, a single exposure to angiotensin induced a rapid induction of mRNA coding for the extracellular matrix glycoprotein thrombospondin. Similar results were obtained with cells maintained on medium containing 1% plasma-derived serum; however, the levels of induction were reduced by this procedure. This study demonstrated that Ang II was capable of stimulating both growth and matrix elaboration by cultured vascular smooth muscle cells. These observations are indicative of a pathophysiological role for the vasoconstrictor peptide, which may contribute significantly to the development of hypertension.
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PMID:Modulation of extracellular matrix by angiotensin II: stimulated glycoconjugate synthesis and growth in vascular smooth muscle cells. 170 26

The present study was undertaken to explore the possibility that neointimal smooth muscle cells, the characteristic cells of restenosis and atherosclerosis, are selectively stimulated to replicate by a hypertensive stimulus. Angiotensin II (AII) was infused by osmotic minipumps for 2 weeks in 4.5-month-old rats. Group A received AII (200 ng/min) 2 weeks after a balloon catheter-induced injury of the thoracic aorta and left common carotid artery. Group B received only AII, group C only balloon denudation, and group D neither balloon injury nor AII. During the AII or Ringer's solution infusion, all animals received [3H]thymidine via a second minipump to measure DNA synthesis. AII increased the systolic pressure by more than 40 mm Hg. AII significantly increased DNA synthesis in the media of the carotid artery from 0.2 +/- 0.2% in group C to 2.5 +/- 1.5% in group A (mean +/- SD, n = 5 or 6). DNA synthesis in the neointima of the carotid artery significantly increased with AII from 4.8 +/- 4.2% in group C to 19.8 +/- 13.9% in group A. Cross-sectional area of the neointima almost doubled during AII infusion, and it increased approximately 25% in the media. Comparable results were obtained in the aorta. In a second experiment, AII was infused (125 ng/min) for 2 weeks in 11-week-old rats. Concomitantly, [3H]thymidine was given. Control rats received Ringer's solution and [3H]thymidine in their pumps. Blood pressures were elevated to the same extent as in the older animals.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Angiotensin II induces smooth muscle cell proliferation in the normal and injured rat arterial wall. 199 49

In chronic models of hypertension such as the spontaneously hypertensive rat (SHR), thickening of the media of large arteries occurs mainly through smooth muscle cell (SMC) hypertrophy accompanied by DNA replication resulting in large polyploid cells. In resistance vessels of SHR, medial hypertrophy occurs through a hyperplastic response. It has been suggested that this hyperplasia is due to mitogens such as platelet-derived growth factor (PDGF), while the hypertrophied polyploid cells occur from stimulation by angiotensin II from within the vessel wall. Angiotensin II activates many of the same cellular pathways as PDGF, including stimulation of phospholipase C, mobilization of intracellular calcium and activation of Na+/H+ exchange. Both induce transient increases in the proto-oncogenes c-fos and c-myc. However, a possible explanation for the difference in SMC response may be involvement of an intracellular pathway stimulated by PDGF (but not by angiotensin II), such as stimulation of JE (a cytokine-like molecule), which may activate transcriptional events necessary for mitogenesis. In atherosclerosis vascular hypertrophy occurs in the form of focal intimal thickening and results from hyperplasia of diploid SMC and their greatly increased production of extracellular matrix, (particularly collagen) and the accumulation of intra- and extracellular lipid. The SMC involved in atherogenesis are phenotypically modified compared with the SMC of undiseased regions, and amongst other features have a lower volume fraction of myofilaments (Vvmyo). Associated with modulation to a low Vvmyo are increases in SMC expression of mRNA for collagens type I (alpha 1 and alpha 2) and type III (alpha 1), elastin, fibronectin, as well as massive increases in collagen protein (26- to 45-fold), glycosaminoglycans (5-fold), and lipid accumulation (7-fold).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Molecular biology of vascular hypertrophy. 203 94

In addition to preserving the permselectivity of the vascular wall and providing an antithrombogenic surface, the vascular endothelium contributes importantly to the regulation of vasomotor tone. Indeed, the endothelium participates in the conversion of angiotensin I to angiotensin II; the enzymatic inactivation of several plasma constituents such as bradykinin, norepinephrine, serotonin, and ADP; and the synthesis and release of vasodilator substances such as prostacyclin and the recently discovered endothelium-derived relaxing factor (EDRF). The diffusible EDRF released from the endothelium is nitric oxide or a substance closely related to it such as nitrosothiol. The endothelium also synthesizes and releases vasoconstrictive factors, including products derived from arachidonic acid metabolism and the recently discovered peptide endothelin. An increasing body of evidence from experimental and clinical studies indicates that EDRF and endothelium-derived contracting factors play an important role in vascular physiology and pathology. It has become apparent that the balance of these factors may be a major determinant of systemic and regional hemodynamics. Moreover, through generally opposite effects on growth-related vascular changes, contracting factors such as endothelin and relaxing factors such as EDRF also may be important determinants of the vascular response to injury in various disease states such as atherosclerosis and hypertension. It is clear that the vascular endothelium is a complex and dynamic organ. Understanding endothelium function in normal physiology and disease states is of potential clinical importance and should be the focus of future investigation.
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PMID:Role of endothelium-derived relaxing factor in regulation of vascular tone and remodeling. Update on humoral regulation of vascular tone. 204 72

Endothelin (ET), a peptide originally isolated from the supernatants of cultured endothelial cells, exerts a wide variety of biological effects in different tissues. Endothelial-cell-synthesized ET-1 has been proposed to act in a paracrine manner on adjacent smooth muscle cells (SMC) in vivo, with effects that include both vascular reactivity (vasodilation/vasoconstriction) and mitogenesis. This study, by the use of immunocytochemically characterized SMC (rVSMC) isolated from the aortas of spontaneously hypertensive rats, has investigated a possible autocrine role for ET in regulation of the vasculature. Although quiescent cultures of rVSMC apparently did not constitutively express prepro ET-1mRNA, ET-specific transcripts could be induced by a variety of growth factors (transforming growth factor beta [TGF-beta]; platelet-derived growth factor-AA homodimer [PDGF-A chain]) and vasoactive hormones (angiotensin II [Ang II], arginine-vasopressin, and ET-1 itself). The kinetics for prepro ET-1mRNA induction in rVSMC were characteristically rapid in onset and transient. Down-regulation of protein kinase C by 48 h pretreatment of rVSMC with phorbol ester markedly reduced the subsequent ability of rVSMC to express ET-1 transcripts and secrete ET-1 peptide in response to Ang II. Inducible prepro ET-1mRNA expression was accompanied by a cycloheximide-inhibitable release of ET-1 peptide into the medium of rVSMC. ET-1 peptide was determined by both radioreceptor- and radioimmunoassay. Stimulated rVSMC accumulated ET-1 (approximately 200 pg.10(6) cells-1 x 4 h-1) at levels that attained biological relevance (approximately 10(-10) M). Sep-pak C18 extracts of medium from stimulated rVSMC elicited contraction of isolated endothelium-denuded rat mesenteric resistance vessels, and this response was characteristically protracted and difficult to "wash out." Synthetic (porcine) ET-1 promoted the expression of transcripts for PDGF-A chain, TGF-beta, and thrombospondin in quiescent rVSMC. Such effects of ET-1 on gene expression may be relevant to the mitogenic potential of ET-1 on VSMC. Our findings imply a role for ET-1 in the control of vascular function via both paracrine and autocrine regulatory mechanisms. The expression of prepro ET-1mRNA and peptide biosynthesis by rVSMC may have both short-term (e.g., vasoconstriction) and long-term (e.g., structural remodeling) consequences. A sustained loop of autocrine stimulation by ET-1 in SMC could contribute toward the pathogenesis of vasospasm and/or atherosclerosis.
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PMID:Stimulation of endothelin mRNA and secretion in rat vascular smooth muscle cells: a novel autocrine function. 207 71

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