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Query: UMLS:C0004153 (
atherosclerosis
)
77,401
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have previously reported that fibrinogen/fibrin can induce the migration of vascular smooth muscle cells in vitro. In this study, we examined the effect of substrate-bound fibrinogen/fibrin and other cell attachment-promoting proteins on the adhesion of vascular smooth muscle cells. The amount of fibrinogen/fibrin adsorbed to plastic wells and the adhesion of smooth muscle cells to the wells were found to depend on the concentration of fibrinogen used for coating the wells. The effect of fibrinogen/fibrin was comparable to that of so-called cell attachment-promoting proteins (fibronectin, vitronectin, and
type I collagen
). Adhesion of smooth muscle cells to fibrinogen/fibrin-coated wells was inhibited by the synthetic peptide GRGDS, but not by a control peptide, GRGES. Vitronectin, fibronectin,
type I collagen
, denatured
type I collagen
and commercial gelatin also induced smooth muscle cell adhesion. The adhesion induced by vitronectin, denatured
type I collagen
, and commercial gelatin was inhibited by GRGDS. However, the adhesion induced by
type I collagen
was not influenced and that induced by fibronectin was only slightly inhibited. These observations suggest that fibrinogen/fibrin deposited extracellularly in the arterial intima may act as a scaffold in the process of smooth muscle cell migration.
Atherosclerosis
1992 Oct
PMID:Substrate-bound fibrinogen, fibrin and other cell attachment-promoting proteins as a scaffold for cultured vascular smooth muscle cells. 128 31
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
The interactions of vascular smooth muscle cells with growth modulators and extracellular matrix molecules may play a role in the proliferation and migration of these cells after vascular injury and during the development of
atherosclerosis
. Time-lapse cinematographic techniques have been used to study cell division and migration of bovine carotid artery smooth muscle cells in response to matrix molecules consisting of solubilized basement membrane (Matrigel) and
type I collagen
. When cells were grown adjacent to Matrigel, both migration and cell proliferation were increased and interdivision time was shortened. Cells grown in Matrigel or in
type I collagen
had markedly reduced migration rates but interdivision time was not altered. Further, diffusible components of the Matrigel were found to stimulate proliferation of the smooth muscle cells.
...
PMID:Cinematographic analysis of vascular smooth muscle cell interactions with extracellular matrix. 201 50
Fibrosis is the most important manifestation of human vascular
atherosclerosis
. Primary culture of human aortic cells makes it possible to study some manifestations of fibrosis in vitro. Indirect immunofluorescence has shown that primary culture cells contain intracellular antigens to all the antibodies used but that only
type I collagen
forms extracellular matrix in culture. Modulation of the cultivation conditions does not lead to the appearance on the cell surface of other type collagens. It is assumed that in primary culture, human aortic cells synthesize the same collagen types as those synthesized in vitro. This circumstance might enable using such a culture as model for studying the mechanisms of fibrosis during
atherosclerosis
.
...
PMID:[Immunomorphological study of the localization of types I, III, IV and V collagen in a primary culture of human aortic cells]. 635 99
Vascular endothelial cells derived from adult bovine aortic arch can be grown in two ways, either in the presence or absence of fibroblast growth factor. The types of collagen produced by cultures under these two conditions have been compared. In the presence of fibroblast growth factor, cells grow in an orderly fashion, express their normal phenotype and synthesize primarily type III collagen plus collagens types IV and V at a ratio of 10:1:3. Cultures grown in the absence of the factor lose their orderly pattern of growth, lose polarity and normal phenotypic expression. They devote twice the proportion of total protein-synthesizing capacity to collagen, and now synthesize type I in addition to the other collagen types. The ratio of collagen types I:III:IV:V is approximately 30:70:1:13. The kinds of type V collagen chains expressed are also altered. Fibroblast growth factor appears to modulate collagen synthesis, the major component of the extracellular matrix, and indirectly modulates the phenotypic expression of cultured vascular endothelial cells. In
atherosclerosis
,
type I collagen
is found in association with the intimal layer. The disorderly growth and the abnormal production of
type I collagen
by these vascular endothelial cells cultured in the absence of fibroblast growth factor is a model for a number of pathological situations including atherosclerotic plaque formation.
...
PMID:Fibroblast growth factor modulates synthesis of collagen in cultured vascular endothelial cells. 646 Jun 22
This review deals with some structural features of the collagen molecules involved in the adhesion of platelets representing the initial step of hemostasis, thrombosis, and (partly)
atherosclerosis
. The adhesion occurs at the level of a vascular lesion or deendothelialized area, whatever the genetic type of collagen. In vitro experiments with purified collagens have shown that vascular interstitial collagens (types I and III, the latter present in subendothelium) as well as basement membrane-derived collagens (types IV and V) induce an adhesion of platelets, provided that an ordered arrangement linked to the quaternary and tertiary structures of their molecule is preserved. Whatever the quaternary structure, the important point seems to be the size of the fibers and more precisely the availability of an optimal number of adhesion sites on multimerized fibers. Various direct or indirect proofs (for example, the occurrence of the impairment of collagen multimerization on platelet adhesion/aggregation) are reviewed. Our recent studies on interstitial collagens have shown the involvement of certain specific amino-acid sequences obtained after cyanogen bromide cleavage of collagen. These are the C-terminal alpha1 (I) CB6 peptide of the alpha 1 chains of
type I collagen
(216 amino acids) and the central alpha1 (III) CB4 peptide from type III collagen (149 amino acids) Cleavage of this last peptide by chymotrypsin, hydroxylamine, and trypsin has suggested the possibility that a nonapeptide (sequence gly-lys-hyp-gly-glu-hyp-gly-pro-lys) is a minimum site of adhesion for platelets. This assumption has been reinforced by the fact that a synthetic nonapeptide with this sequence specifically inhibits the aggregation of platelets to collagen in vitro. The adhesion of platelets may consequently be due to the repetitive staggering of short amino acid sequences (such as this nonapeptide from type III collagen) along the rigid structure formed by a multimerized collagen fiber.
...
PMID:[The adhesion of blood platelets to collagen: molecular features of collagen (author's transl)]. 702 81
Estimation of collagens types I and III in pepsin digests and by analysis of specific cyanogen-bromide derived peptides by SDS-polyacrylamide gel electrophoresis, has indicated that both the undiseased human aortic media and the atherosclerotic plaque of the diseased intima contain more
type I collagen
than type III. There was only a relatively small shift in composition in favour of
type I collagen
in the diseased compared to the undiseased tissue. Diffusely thickened intima was similar in composition to the atherosclerotic plaque. These results suggest that both atherogenesis and diffuse intimal thickening may involve primarily smooth muscle cell hyperplasia with increased overall collagen production but little alteration in cell phenotype as regards the relative proportions of the individual collagens produced. They do not support the contention that
atherosclerosis
involves a 'transformation' of smooth muscle cells to fibroblast in type, whereby a major switch in synthesis occurs from largely type III collagen to mainly type I in disease. Type V collagen(s) containing both alpha A- and alpha B-chains has been detected throughout the vessel wall in diffusely thickened intima, media and adventitia, as well as in the plaque where, in the latter case, a marked enrichment relative to interstitial collagens was noted. This is presumed to reflect the relatively cellular nature of the atherosclerotic lesion. The alpha C-chain of type V collagen was detected in porcine but not human aorta.
Atherosclerosis
1982 Mar
PMID:Collagen polymorphism in the normal and diseased blood vessel wall. Investigation of collagens types I, III and V. 708 17
Using pulse-label experiments in organ culture, collagen synthesis was studied in aortas from healthy and atherosclerotic specimens. Investigations were carried out on human atherosclerotic plaques as well as in the mini-pig in which
atherosclerosis
occurred spontaneously, and in the rabbit where
atherosclerosis
was experimentally induced by cholesterol-enriched feeding. When compared to total protein synthesis, the percentage of newly synthesized collagens measured as radioactive pepsin-resistant material, decreased with age in healthy specimens, whereas it remained at a higher level when the aortas were atherosclerotic. Subsequent molecular sieve chromatography of the radioactivity pepsin-resistant material allowed the separation
type I collagen
from type III collagen and their relative quantification. The results showed that the newly synthesized type III collagen accounted for 16-31% in aortic explants from young animals, for 30-36% when the explants were derived from older specimens and for 35-48% when the tissues were atherosclerotic.
Atherosclerosis
1981 Apr
PMID:Collagen synthesis in organ culture of normal and atherosclerotic aortas. 724 84
Because collagen is a major component of the human atherosclerotic plaque, factors controlling collagen synthesis may have a profound influence on the volume growth of these intimal lesions. In human arteries, we compared normal vs atherosclerotic media vs intimas for
type I collagen
gene expression using immunocytochemistry and in situ messenger RNA hybridization with subsequent correlations with plaque topographical features. We also determined the associations of such collagen gene expression with proximity to monocyte/macrophages and T lymphocytes. Type I collagen synthesis appears to be upregulated in atherosclerotic plaques compared with their underlying medias and normal internal mammary arteries and coronary diffuse intimal thickenings. At least in established and advanced coronary and carotid plaques,
type I collagen
gene expression is focal and especially prevalent in fibrous cap and vascularized regions. Although macrophages and type I procollagen messenger RNA and protein are both found in atherosclerotic plaques, no apparent spatial correlation between macrophage presence and type I procollagen presence was found within these atherosclerotic intimas. Type I procollagen presence appears to be negatively associated with the spatial presence of T cells. Thus, human atherosclerotic plaques exhibit nonuniform patterns of
type I collagen
gene expression. Although the biochemical determinants of this focal gene expression have yet to be determined, it is conceivable that stimulatory/inhibitory cytokines and other factors (eg hemodynamics) play important roles in determining the focal nature of collagen synthesis in
atherosclerosis
.
...
PMID:Type I collagen gene expression in human atherosclerosis. Localization to specific plaque regions. 750 87
The accumulation of low density lipoprotein (LDL) in the arterial intima is an important characteristic of
atherosclerosis
. We investigated the mechanisms by which LDL binds to different types of collagen. The binding activities of 125I-labeled human native LDL (nLDL) and copper-oxidized LDL (oxLDL) with different collagen gels prepared in
type I collagen
-based mixtures with types I, III, IV and V (I+I, I+III, I+IV and I+V, respectively) were examined. A concentration of 20 micrograms LDL protein/150 micrograms collagen/well was used. The diffusion of both nLDL and oxLDL into the collagen gels reached an equilibrium after 48 h. All of the collagen gels showed the same rates of diffusion with both LDLs. The binding activities of oxLDL were significantly greater than those of nLDL (P < 0.001%), while the binding activities for both LDLs followed the order I+I and I+III > I+V > I+IV. However, the increased binding rate of oxLDL compared to nLDL was 1.66 for I+IV, 1.50 for I+V, 1.33 for I+I and 1.19 for I+III. When a 10-fold higher dose of NaCl (1 M) was added to the oxLDL medium, the binding rate of oxLDL was reduced (rate of reduction: 52% (I+I), 48% (I+III), 35% (I+IV), 13% (I+V)). These results suggest that oxLDL binds more to type I and III collagens by negative charge-dependent mechanisms than to type IV and V collagens. Therefore, types I and III collagens may play an important role in trapping LDL, especially oxLDL. Therefore, oxidatively modified LDL may contribute to atherogenesis due to its longer retention in the arterial wall.
Atherosclerosis
1994 May
PMID:Low density lipoproteins bind more to type I and III collagens by negative charge-dependent mechanisms than to type IV and V collagens. 794 53
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