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

The purpose of our experiments was to clarify the relationship between the susceptibility to atherosclerosis and chemical composition in the human cerebral, coronary arteries and aorta, and the concentration and composition of human arterial intimal elastic tissues were measured. In the cerebral arteries, the concentration of hot alkali-insoluble elastin was higher than that of the coronary arteries and aortas, and gradually decreased with age. Age-related changes of the elastin in the coronary arteries were quite small. The total polar amino acids and crude ash contents of arterial elastins were affected by age and treatment of elastic tissue wheteher or not EDTA-decalcification was applied prior to alkali-extraction. No significant differences in the amino acid composition of elastin was founded between the cerebral, coronary and aortic intimas and no significant changes to elastin, and or collagen, which can explain the slow development of atherosclerosis in the cerebral artery, were founded. Therefore, from these results, the slower development rate of cerebral atherosclerosis, as compared with other arteries, can not be sufficiently concluded.
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PMID:Chemical comparison of intimal elastin in the human cerebral and coronary arteries and aorta. A preliminary note. 123 41

Autoradiographic tests carried out on rats with renal hypertension using 3H-proline resulted in an acclerated collagen synthesis by media cells of aorta and coronary arteries. Electronmicroscopically an increased content of collagen fibers and an enrichment of ruthenium-red-positive substances in the extracellular space were found. The 35S-sulfate-incorporation in aorta and coronary arteries of animals with hypertension is also increased. These changes in the extracellular space of the vascular wall have an atherosclerosis promoting effect, probably caused by a distrubance of the permeability.
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PMID:[Expermental contribution on the genesis of arteriosclerosis caused by hypertension]. 123 18

External jugular veins that had been subjected to the hemodynamic stresses produced by experimental arteriovenous anastomosis developed 2% increased total protein contents and 17% increased collagen contents. When the stressed veins were homogenized and extracted with saline solutions, statistically significant increases in the saline-soluble proteins and in the saline-soluble collagen (87% and 267%, respectively) were observed. Increased amounts of low molecular weight peptides were found in the extracts. A fraction of these peptides could be degraded by Clostridium collagenase. The saline extract also contained proteins which resembled by their amino-acid composition the acidic structural proteins of the connective tissues. Additonally, in 3 dogs so tested, changes were found in the hydroxylation and glycosylation of lysine from gelatin extracts as well as in the lysine and desmosine contents of the insoluble elastin fractions. This is the first demonstration of a hemodynamically induced increase in the saline solubility of connective tissue proteins in the absence of dietary manipulations.
Atherosclerosis
PMID:Hemodynamically-induced increase in soluble collagen in the anastomosed veins of experimental arteriovenous fistulae. 126 60

Hypercholesterolemia and hypertension are two of the major risk factors associated with increased atherosclerotic vascular disease. An abnormal platelet function is one of the mechanisms proposed to participate in atherogenesis. This study was undertaken to find out whether hypercholesterolemia in hypertensive patients can change platelet lipid composition and reactivity. Twenty-nine untreated hypertensive patients were distributed into 3 age, body mass index and blood pressure-matched groups according to their plasma cholesterol levels (normal, borderline or elevated, group NC, BC and HC respectively). Their platelet lipid composition, cytosolic Ca2+ concentration, cyclic AMP content and aggregating response to ADP and collagen were determined. Platelet from group HC patients were characterized by reduced cyclic AMP content (evaluated in the presence and absence of a platelet phosphodiesterase inhibitor) and aggregating responses to ADP and collagen, increased palmitic acid content and decreased arachidonic, eicosapentaenoic and docosatetraenoic and pentaenoic acid content, resulting in a lowered polyunsaturated to saturated fatty acid ratio (P less than 0.001). In contrast, platelet cytosolic Ca2+ concentration, DPH steady-state anisotropy and cholesterol to phospholipid molar ratio were not significantly changed. This indicates that hypercholesterolemia is accompanied in hypertensive patients by marked changes in platelet fatty acid composition, cyclic AMP content and response to aggregating agents. These changes, which clearly differ from those induced by in vitro cholesterol loading, could reflect not only the balance between LDL and HDL stimulation but also an adaptation to hemodynamic perturbations.
Atherosclerosis 1992 Jun
PMID:Biochemical and functional alterations associated with hypercholesterolemia in platelets from hypertensive patients. 132 32

The addition of the beta-blockers propranolol, metoprolol, atenolol, pindolol, alprenolol and timolol to a culture of peritoneal macrophages or smooth muscle cells induced an increase in the intracellular cholesterol content. Blood serum obtained from a rabbit after a peroral administration of beta-blockers also induced cholesterol accumulation. This property of drug or blood serum obtained after peroral administration is conventionally referred to as atherogenic potential or atherogenicity. Regular administration of propranolol during a 21-day period evoked stable atherogenicity of rabbit blood serum. This was accompanied by stimulation of manifestations of atherosclerosis in the aorta deendothelialized with a balloon catheter. Propranolol increased neointimal thickening, lipid accumulation, an increase in cell number and in the collagen content. In vitro, the combination of propranolol with papaverine eliminated the atherogenic effect of propranolol which manifested itself as stimulation of cholesterol accumulation in cultured cells. Simultaneous peroral administration of propranolol and papaverine prevented the appearance of serum atherogenicity. Papaverine eliminated neointimal thickening, an increase in cell number and in the lipid and collagen contents evoked by propranolol. Papaverine itself had no effect on these parameters. Thus, the atherogenicity of propranolol as well as capacity of papaverine to eliminate beta-blocker atherogenicity revealed in cell culture was confirmed in vivo. We hope that these results may be useful in the development of new drugs and optimization of antiatherosclerotic drug therapy.
Atherosclerosis 1992 Jul
PMID:Beta-blockers: propranolol, metoprolol, atenolol, pindolol, alprenolol and timolol, manifest atherogenicity on in vitro, ex vivo and in vivo models. Elimination of propranolol atherogenic effects by papaverine. 135 74

The effects of insulin and insulin-like growth factor I (IGF-I) on migration, proliferation and tube-forming activity of endothelial cells were investigated, by using bovine carotid artery endothelial cells. Migration was assayed by a filter membrane technique and tube formation was assayed by a quantitative angiogenesis in vitro model which we have recently developed. In this model, endothelial cells are cultured between two layers of type I collagen gel and become organized into tube-like structures which mimic capillaries in vivo ultrastructurally. Insulin (50-1000 microunits/ml) and IGF-I (10-200 ng/ml) significantly stimulated migration of endothelial cells in a dose-dependent manner with a maximal stimulation of 3.0-fold at 1000 microunits/ml for insulin and 3.8-fold at 200 ng/ml for IGF-I (P less than 0.01). Insulin at concentrations up to 1000 microunits/ml and IGF-I up to 100 ng/ml did not affect proliferation of endothelial cells. When insulin or IGF-I was added in culture medium on collagen gels, tube-forming activity of endothelial cells was markedly stimulated. The specific lengths of tubes significantly increased with the increase in insulin concentration from 25 to 100 microunits/ml (P less than 0.01). At 100 microunits/ml, the stimulation was 1.77-fold (P less than 0.01). IGF-I (1-100 ng/ml) also stimulated the elongation of tubes dose-dependently with a maximal stimulation of 1.96-fold at 100 ng/ml (P less than 0.01). Thus, insulin and IGF-I at pathophysiological concentrations stimulate migration and tube-forming activity of endothelial cells, suggesting that these polypeptides may stimulate repair of endothelial injury in cases such as atherosclerosis and may act as a stimulator of angiogenesis.
Atherosclerosis 1992 Feb
PMID:Stimulatory effects of insulin and insulin-like growth factor I on migration and tube formation by vascular endothelial cells. 137 40

Arterial compliance in humans is generally measured by modeling analysis of pulse tracing or of pulse wave propagation in the arterial tree. It is decreased in hypertension in part because elevation of blood pressure stiffens the arteries by stretching the rigid collagen fibres of their walls. Using a modeling evaluation of the compliance-pressure relationship in large arteries, it is possible to correct compliance from the mechanical effect (passive effect) due to pressure elevation. This makes it possible to show that, at the same pressure as in normal controls, hypertensive patients maintain decreased arterial compliance. This finding suggests that functional and/or structural changes other than pressure-mediated stretching of arteries (active effect) contribute toward reducing arterial compliance. Thus, the response of compliance to antihypertensive drugs must be studied by differentiating between passive and active effects. The diameter and compliance-pressure relationship in arteries allow differentiation of a passive arterial effect due to the pressure-lowering action of the drug, and an active pharmacological effect calculated at the same pressure before and after drug administration. Four drugs--ketanserin, urapidil, nitrendipine, and nicardipine (acute administration)--are given as examples. No active or passive compliance changes are observed with urapidil and ketanserin. In contrast, an active increase in compliance is observed in isobaric conditions with calcium antagonists, together with large-artery dilation due to a potent smooth muscle-relaxing effect. This active increase in compliance is potentiated by a passive increase due to the pressure-lowering effect that reduces the mechanical stretch exerted by blood pressure on arterial bioelastomers. Finally, an optimum increase in arterial compliance is achieved by drugs that vasodilate large arteries by smooth muscle relaxation and concomitantly decrease blood pressure. This may be of importance because low compliance has adverse effects on the cardiovascular system by contributing to the pathogenesis of systolic hypertension and left ventricular hypertrophy. Loss of arterial compliance may also be an early marker of atherosclerosis.
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PMID:Role of arterial compliance in the physiopharmacological approach to human hypertension. 138 85

The purpose of this study was to investigate the vasoformative behavior in vitro of the native intimal endothelium of the rat aorta. To visualize the intimal surface directly, thoracic aortas were everted using a procedure that sequestered adventitial cells and possible remnant microvessels of periaortic soft tissues inside the aortic tube. Everted aortas embedded in collagen gel and cultured under serum-free conditions generated branching microvessels by a process of sprouting from the aortic intima. The newly formed microvessels originated from patches of activated intimal endothelial cells, which had survived the mechanical damage of the eversion procedure. Activated endothelial cells crawled over each other and engaged in lumen formation forming bilayers or multilayers of cells which became the source of sprouting histotypic microvessels. The endothelium of the newly formed microvessels was positive for factor VIII-related antigen and was partially surrounded by periendothelial cells which expressed alpha-smooth muscle actin. The results of this study indicate that the intimal endothelium of the rat aorta has considerable functional plasticity and can switch to a vasoformative phenotype in response to changes in the surrounding extracellular matrix environment.
Atherosclerosis 1992 Aug
PMID:Large-vessel endothelium switches to a microvascular phenotype during angiogenesis in collagen gel culture of rat aorta. 138 19

Measurements of total collagen, of the ratio of collagen types III/(I+III) and of sulphated glycosaminoglycans (GAGs) were compared with mechanical strength for individual ulcerated and non-ulcerated human aortic plaque caps and with intima adjacent to the plaques. The distributions of the collagen type ratio were similar for both ulcerated and non-ulcerated plaque caps but different from that of the adjacent intima. The proportions of different collagen types were not related to fracture stress and are thus unlikely to affect the potential to ulcerate. The distributions of the sulphated GAGs showed lower amounts for the plaque caps compared with the nearby intima, with the centres of ulcerated plaque caps having the lowest values. Total collagen had higher values in the peripheries of plaque caps compared with the nearby intima, but was distinctly lower in the centres of ulcerated plaque caps. Plaque caps appeared to require a higher collagen content than adjacent intima to support a given level of mechanical strength, suggesting that while collagen production had occurred in the plaque caps it was not as efficiently organized to resist fracture as a similar amount of collagen in the adjacent intima. Ulcerated plaque caps are notable for much larger transverse (centre vs. periphery) gradients of connective tissue constituents than for non-ulcerated plaque caps. The development of these transverse gradients may be a critical aspect in determining the propensity of a plaque to ulcerate.
Atherosclerosis 1992 Sep
PMID:Collagen types I and III, collagen content, GAGs and mechanical strength of human atherosclerotic plaque caps: span-wise variations. 141 4

To study the functional characteristics of smooth muscle cell (SMC) phenotypes, we have investigated myosin expression, cell proliferation, collagen production and low-density lipoprotein (LDL) receptor activity in intimal SMCs of normal human aorta during their growth in primary culture. By staining with rabbit antibodies to smooth muscle myosin (ASMM) 3 cell types could be distinguished in culture: homogeneously stained cells, cells with discontinuous myosin fibrils and myosin-negative cells. The ratio of cell types greatly changed with culture growth: on days 5, 7 and 14 it was 82:1:17%, 70:5:25% and 10:30:60%, respectively. After 5-6 days of culture intimal SMCs began to proliferate and DNA-synthesizing nuclei were seen 1.5-4.3 times more frequently in myosin-negative cells than in cells with homogeneous myosin distribution. At that time the number of cells reacted with monoclonal antibody (MAb) to an epitope shared collagen types I and III started to increase. By double immunofluorescence staining it was shown that the cultured cells containing both ASMM and MAb markers were found 2.0-4.8 times more rarely than MAb-positive staining in myosin-negative cells. During the first 5 days in culture LDL binding and uptake were diminished in intimal cells with intercellular lipid inclusions independently of their myosin staining pattern, but their activity increased with culture growth. Thus, SMCs from human aortic intima change their phenotype on days 6 and 7 in primary culture as manifested by alteration of myosin expression, increased cell proliferation, collagen production and LDL receptor activity. Changes in myosin expression, however, are not an essential prerequisite for cell proliferation and collagen production.
Atherosclerosis 1992 Oct
PMID:Phenotype related changes of intimal smooth muscle cells from human aorta in primary culture. 146 51


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