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)

Atherosclerotic segments of pigeon aorta synthesized collagen at four times the rate found in normal aorta (Athero = 2071 +/- 1339 ng/g/h; Control = 497 +/- 192 ng/g/h; P less than 0.025). Similar results were obtained when synthesis was expressed per mg DNA. Elevation in collagen synthesis was relatively specific, collagen accounting for 4% of total protein synthesis in lesion-free aorta and 11.5% in atherosclerotic aorta. Substantial increases in total collagen were observed in atherosclerotic aortas (Athero = 9.9 +/- 3.1 mg/aorta; Control = 6.0 +/- 1.3 mg/aorta; P less than 0.05). Ultrastructural studies revealed the accumulation of large amounts of dense fibrillar collagen in the sub-endothelial region of the plaque. Plaque cells contained multiple vacuoles, an extensive rought endoplasmic reticulum and many mitochondria, suggesting active protein synthesis. It is concluded that increased collagen biosynthesis and deposition is an important metabolic derangement in lipid-rich atherosclerotic lesions whihc promotes their gradual conversion to fibrous plaques.
Atherosclerosis 1977 Mar
PMID:Enhanced synthesis and accumulation of collagen in cholesterol-aggravated pigeon atherosclerosis. 84 79

Scavenger receptors have been implicated in the development of atherosclerosis and other macrophage-associated functions. The structures and processing of type I and type II bovine macrophage scavenger receptors were examined using polyclonal anti-receptor antibodies. Pulse/chase metabolic labeling experiments showed that both types of scavenger receptors expressed in Chinese hamster ovary (CHO) cells behaved as typical cell surface membrane glycoproteins. They were synthesized as endoglycosidase H-sensitive precursors which were converted to endoglycosidase H-resistant mature forms expressed on the cell surface. The reduced precursor and mature forms were doublets on sodium dodecyl sulfate-gel electrophoresis, primarily because of heterogeneous N-glycosylation. The approximate molecular sizes were: type I precursor, 65/63 kDa; type I mature, 82/76 kDa; type II precursor, 57/53 kDa; and type II mature, 72/65 kDa. During post-translational processing, the cysteine-rich C terminus (SRCR domain) of some of the type I receptors was proteolytically removed to form a relatively stable, approximately 69-kDa degradation product. Type II receptors differ from type I receptors in that they do not have SRCR domains and an analogous proteolytic cleavage was not observed. Several experiments provided strong evidence that the Gly-X-Y-repeat domains in the scavenger receptors oligomerize into collagenous triple helices. For example, alpha,alpha'-dipyridyl, an inhibitor of the collagen-modifying enzymes prolyl and lysyl hydroxylases, interfered with both the kinetics and nature of post-translational receptor processing, and both precursor and mature forms of the receptors in intact cells could be cross-linked with difluorodinitrobenzene into reduction-resistant trimers. In intact cells, precursor receptor trimers (type I, 198 kDa; type II, 176 kDa) were assembled in the endoplasmic reticulum by the noncovalent association of monomers and Cys83-disulfide-linked dimers (type I, 129 kDa; type II, 119 kDa). When cells were lysed in the absence of the sulfhydryl trapping agent iodoacetamide, oxidation of the side chain of Cys17 in the cytoplasmic domain leads to the artifactual formation of reduction-sensitive covalently linked trimers. The approximate masses of the mature dimer and trimer forms were 162 and 237 kDa for type I receptors and 147 and 219 kDa for type II receptors. Cys83-disulfide-linked dimer formation was not required for function because mutant receptors (Cys83----Gly83) assembled into trimers of noncovalently associated monomers and exhibited normal receptor activity. Treatment of cells with difluorodinitrobenzene cross-linked some of the receptors into complexes larger than trimers, raising the possibility that the trimers may assemble into higher order oligomers.
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PMID:The type I and type II bovine scavenger receptors expressed in Chinese hamster ovary cells are trimeric proteins with collagenous triple helical domains comprising noncovalently associated monomers and Cys83-disulfide-linked dimers. 174 71

The ultrastructure and the expression of cytoskeletal and contractile proteins were studied in the intimal cells of human coronary arteries (CA) taken at autopsy from 38 trauma victims aged 1 to 70 years. All intimal smooth muscle cells (SMC) of the CA from 2-4-year old children contained desmin, vimentin, myosin, and actin. In the normal intima of adolescents aged 14-16 years, only did some SMC contain desmin whereas in that of adults, they had no desmin, but expressed all other proteins. For example, some atherosclerotic plaques of CA exhibited desmin-positive SMC and smooth muscle myosin-free cells. The ultrastructure of SMC of atherosclerotic plaques showed profound polymorphism. In addition to typical SMC, the plaques displayed modified cells having a developed endoplasmic reticulum and Golgi complex. The fact that the atherosclerotic plaques have cells differing in ultrastructural features and protein expression, which is specific to an earlier period of the body development suggests phenotypic changes in the cells and the latter acquiring new functions that are of great significance in the pathogenesis of atherosclerosis.
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PMID:[Phenotype changes in smooth muscle cells of human coronary arteries during aging and during development of atherosclerosis]. 179 63

The ultrastructure of human thoracic aortas collected at autopsy from 16 trauma victims aged from 3 to 40 years was investigated. Intercellular contacts were found in all aortas examined. The contacting cells localized predominantly in aortic areas predisposed to atherosclerosis, i. e. in areas situated around the ostia of the intercostal arteries. Most of contacting cells were monocytes--macrophages (Mn/Mph) which interacted with foam cell and intimal smooth muscle cells (SMCs). Only occasional contacts were formed by lymphocytes and endothelial cells. All intimal contacting SMCs were of the synthetic phenotype, i. e. they did not contain myofilaments and had well developed endoplasmic reticulum and Golgi apparatus. In thickened aortic intima the contacting cells were seen with the signs of destruction. The data obtained suggest that the contacts between intimal cells may be the consequence of the immune reaction directed to the transfer of information, cell cytolysis and utilization of cell debris.
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PMID:[Intercellular contacts in portions of early atherosclerotic lesions of the human aorta]. 179 15

Lysosomes have long been implicated as a factor contributing to the progression and complication of atherosclerosis. The authors' laboratory previously has shown that lysosomal ultrastructure in arterial macrophage foam cells is altered as primary lysosomes give rise to large pleiomorphic organelles on lipid accumulation during lesion progression. To further explore the subcellular alterations in lysosomes and associated organelles during foam cell formation, three-dimensional (3D) intermediate voltage electron microscopy was used to examine monocyte-derived macrophages (monocyte/macrophages) during early in vitro uptake of beta migrating very-low-density lipoproteins (beta VLDL). Lysosomes were identified using acid phosphatase cytochemistry, and in control cells these organelles constituted 3.5% of the total cytoplasmic volume. Both primary and secondary lysosomes were observed. Upon beta VLDL uptake, the total volume of acid-phosphatase-positive organelles increased threefold over 30 minutes, and the reaction product was found in three additional morphologically distinct structures: tubular lysosomes, membrane stacks, and endoplasmic reticulum with widened cisternae. The proportion of the cell occupied by each of the five acid-phosphatase-positive organelles was quantitated at 10 minutes, 30 minutes, 1 hour, and 4 hours of beta VLDL incubation, and their relative abundance was compared with controls that were processed either with no lipoprotein challenge or albumin incubation for 1 hour. Secondary lysosomes compartment volume peaked at 30 minutes; over the ensuing 3.5 hours, however, the reaction progressively shifted to three new membrane-limited locations. Our observations document the complex 3D organization and spacial relationships among the acid-phosphatase-positive structures induced by lipoprotein uptake. The 3D organization patterns for acid-phosphatase-positive lysosomes in lipoprotein-stimulated pigeon monocyte/macrophages were similar in several aspects to the complex lysosomes previously observed in the macrophages of pigeon arterial lesions.
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PMID:Pigeon monocyte/macrophage lysosomes during beta VLDL uptake. Induction of acid phosphatase activity. A model for complex arterial lysosomes. 186 24

Various types of studies in humans and animals suggest strongly that HDL is anti-atherogenic. The anti-atherogenic potential of HDL is thought to be due to its participation in reverse cholesterol transport, the process by which cholesterol is removed from non-hepatic cells and transported to the liver for elimination from the body. Extensive studies in cell culture systems have demonstrated that HDL is an important mediator of sterol transport between cells and the plasma compartment. The topic of this review is the mechanisms that account for sterol movement between HDL and cells. The most prominent and easily measured aspect of sterol movement between HDL and cells is the rapid bidirectional transfer of cholesterol between the lipoprotein and the plasma membrane. This movement occurs by unmediated diffusion, and in most situations its rate in each direction is limited by the rate of desorption of sterol molecules from the donor surface into the adjacent water phase. The net transfer of sterol mass out of cells occurs when there is either a relative enrichment of sterol within the plasma membrane or a depletion of sterol in HDL. Recent studies suggest that certain minor subfractions of HDL (with pre-beta mobility on agarose gel electrophoresis and containing apoprotein A-I but no apo A-II) are unusually efficient at promoting efflux of cell sterol. To what extent efflux to these HDL fractions is balanced by influx from the lipoprotein has not yet been established clearly. The prevention and reversal of atherosclerosis require the mobilization of cholesterol from internal (non-plasma membrane) cellular locations. To some extent, this may involve the retroendocytosis of HDL. However, most mobilization probably involves the transport of internal sterol to the plasma membrane, followed by desorption to extracellular HDL. Several laboratories are investigating the transport of sterol from intracellular locations to the plasma membrane. Studies on biosynthetic sterol (probably originating mostly in the smooth endoplasmic reticulum) suggest that there is rapid transport to the plasma membrane in lipid-rich vesicles. Important features of this transport are that it bypasses the Golgi apparatus and may be positively regulated by the specific binding of HDL to the plasma membrane.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Cholesterol transport between cells and high-density lipoproteins. 191 62

The Simpson atherectomy device used for the recanalization of severely stenosed peripheral arteries is able to collect plaque material which can be further characterized. This study reports histological, immunohistochemical and transmission electron microscopic findings on advanced human primary atherosclerotic plaques of peripheral arteries percutaneously removed by a Simpson atherectomy catheter. Material from stenosing plaques consisted of dense connective tissue with abundant amounts of concentrically arranged elastic fibers and lamellae. This meshwork contained numerous cells, often arranged in clusters and oriented with their longer axis parallel to the direction of blood flow. The vast majority of these cells could be easily identified as vimentin-positive and desmin-negative smooth muscle cells containing lipid deposits in the perinuclear region and numerous glycogen particles. Monocytes/macrophages were observed only very infrequently. Plaque tissue contained a range of smooth muscle cell phenotypes. Most of the cells were of an intermediate phenotype, i.e. sparsely filled with myofilament bundles at the cell periphery and a high amount of organelles such as mitochondria, rough endoplasmic reticulum and Golgi cisterns. An intact lining of pieces of intimal tissue with endothelial cells was not observed. Two-dimensional gel electrophoresis of plaque tissue showed the presence of alpha-, beta- and gamma-actin isoforms with a clear predominance of the beta-isoform.
Atherosclerosis 1989 Dec
PMID:Cell constitution and characteristics of human atherosclerotic plaques selectively removed by percutaneous atherectomy. 269 72

During the early stages of atherogenesis, as well as during in vitro cultivation, smooth muscle cells modulate from a contractile to a synthetic phenotype. This process includes the loss of myofilaments and the formation of an extensive rough endoplasmic reticulum and a large Golgi complex; it leads to decreased contractility and the commencement of cell growth and secretion of extracellular matrix components. In this paper, the effects of nicotine on adult rat arterial smooth muscle cells cultivated in vitro were studied by transmission electron microscopy and 3H-thymidine autoradiography. The results show that the drug speeded the initial rate of transition of the cells from contractile to synthetic phenotype in primary culture. Further, it stimulated the initiation of DNA synthesis in growth-arrested secondary cultures. Its effect was independent of other mitogens and additive to that of serum. The influences of nicotine, both on the modulation of the smooth muscle phenotype and the initiation of DNA synthesis, occurred at concentrations lower than those obtained in the blood after smoking and could contribute to the role of smoking as a risk factor for atherosclerosis.
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PMID:Effects of nicotine on phenotypic modulation and initiation of DNA synthesis in cultured arterial smooth muscle cells. 288 92

The phenotype of smooth muscle cells (SMCs) in the aortic media of 7 human fetuses (14-20 weeks of gestation) was examined with transmission electron microscopy, immunofluorescence microscopy, and gel electrophoresis of the cytoskeletal and cytocontractile proteins. Ultrastructurally, virtually all medial cells were identified as SMCs having a poorly differentiated phenotype with a cytoplasm rich in rough endoplasmic reticulum and organelles, and with only a few myofilaments. All medial cells stained intensely with antibodies to vimentin, but only in a 20-week-old fetus could we find a few SMCs staining with antibodies to desmin. Nor was desmin detectable with SDS gel electrophoresis followed by immunoblotting, while clear bands corresponding to vimentin, myosin, and actin were present. In isoelectric focusing and two-dimensional gel electrophoresis beta-actin was the most prominent of the 3 actin isoforms in all cases. The present results show that SMCs in the media of fetal human aorta have a poorly differentiated phenotype, which morphologically and biochemically resembles that previously described in the aorta of fetal and newborn rat, in the arterial intima after endothelial injury, in atherosclerotic lesions, and after spontaneous modulation of medial SMCs in culture.
Atherosclerosis 1988 Nov
PMID:Characterization of the phenotype of smooth muscle cells in human fetal aorta on the basis of ultrastructure, immunofluorescence, and the composition of cytoskeletal and cytocontractile proteins. 321 79

The complete amino acid sequence of the liver-synthesized apolipoprotein B (apoB) species, apoB 100, has been derived from cloned cDNA. The protein consists of 4536 amino acids (+ a 27 amino acid signal sequence). Cysteine is clustered in the N-terminal 1/10 of the protein, suggesting the presence of a stabilized tertiary structure in this part of the molecule. Three types of structure are suggested to be of importance for the binding of the protein to lipids; (i) hydrophobic sequences with a high probability for beta-sheet structure, (ii) strict amphipathic beta-sheets, and (iii) amphipathic alfa-helices. An apoB 100 molecule is completed within 10-14 min and secreted after approximately 30 min, 1/3 of which is due to the transfer through the endoplasmic reticulum (ER), while 2/3 is spent in the Golgi apparatus. ApoB 100 is co-translationally N-glycosylated and 25% of the oligosaccharide chains is processed in the Golgi compartment. Other posttranslational modifications that have been discussed include covalent acylation and phosphorylation. It has also been suggested that the lipid moiety of the apoB 100 lipoproteins are modified during the passage through the Golgi apparatus. The site of lipoprotein assembly is suggested to be separated from the site of apoB 100 synthesis, and apoB 100 appears to be co-translationally bound to the ER membrane and from this transferred to the ER lumen. Based on these observations a model for the assembly of apoB 100 lipoproteins is discussed in this paper. The intestinal derived apoB species, apoB 48, has a molecular mass of 210 kDa and appears to correspond to the N-terminal 48% of apoB 100. The mechanism by which apoB 48 is formed is still not known. Available data indicate that the protein is formed within the intestinal cells, these data also argue against the possibility that apoB 48 is formed by posttranslational proteolysis of apoB 100. The formation of a separate apoB 48 mRNA by alternative splicing has been suggested, based on the observation of a 7 kb mRNA which corresponds to the 5' portion of the apoB 100 mRNA. However, the most abundant apoB mRNA species found in the intestine have a size that corresponds to that of the apoB 100 mRNA, furthermore the observation that apoB 48 appears to terminate in a 7.5 kb exon that appears to lack alternative splice sites, does not favour the possibility of alternative splicing.
Atherosclerosis 1987 Nov
PMID:Apolipoprotein B: structure, biosynthesis and role in the lipoprotein assembly process. 331 51

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