Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Fibronectin (Fn) is a glycoprotein secreted principally by vascular endothelial cells and its main function is to maintain the adhesion between the various cells and the substrates. Owing to these two features, the glycoprotein participates in several pathologies affecting blood vessels, such as atherosclerosis and diabetes mellitus (DM). In this paper, we studied the quantitative differences of this protein in diabetic patients with associated macro and microangiopathy.
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PMID:[Importance of plasma fibronectin in vascular diseases of diabetic patients]. 189 15

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

Whereas vascular smooth muscle cell-extracellular matrix interactions have been intensively studied, our knowledge regarding the role that matrix plays in regulating the growth state and contractile phenotype of vessel wall cells is fragmentary. Of particular interest has been the demonstrable ability of (1) heparin to selectively inhibit vascular smooth muscle cell growth in vitro; (2) aortic endothelial cells to produce a heparin-like inhibitor of vascular smooth muscle cells, and (3) heparin to reverse smooth muscle cell proliferation in arteries that have been experimentally denuded of their endothelium. Recent work from our laboratory indicates that the endothelial cell synthesized extracellular matrix alters growth rate and heparin sensitivity of vascular smooth muscle cells. Whereas endothelial cell synthesized matrices that contain collagen and fibronectin promote smooth muscle cell growth, matrices containing heparan sulfate proteoglycan selectively inhibit identical smooth muscle cell populations. Similarly, these heparan sulfate enriched matrices lower smooth muscle sensitivity to heparin and positively influence the endothelial cells' ability to produce the heparin-like inhibitor of vascular smooth muscle cell growth. In an effort to understand the mechanism mediating heparin's effects on smooth muscle cell proliferation and contractile phenotype, we have analyzed the effects of heparin on vascular smooth muscle cell shape and actin isoform expression using doses of heparin previously shown to be growth inhibitory. The results of our studies indicate that heparin alters smooth muscle cell shape and cytoskeletal organization, suggesting that heparin's growth inhibitory action may be related to its effects on cell shape. Additionally, the permissive effects that different endothelial matrices exert on vascular smooth muscle may selectively predispose specific subpopulations of arterial cells towards a proliferating phenotype, one associated with the genesis of atherosclerosis.
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PMID:Endothelial cell matrices modulate smooth muscle cell growth, contractile phenotype and sensitivity to heparin. 208 70

ELISA using the test systems and a complex of equipment manufactured by Flow Company was employed to study over time the content of fibronectin, fibrinogen, products of its degradation and myoglobin in 178 patients suffering from coronary heart disease (stable and progressive angina pectoris, acute myocardial infarction). The concentration of myoglobin, fibronectin, fibrinogen and products of its degradation was established to depend on the gravity of coronary heart disease and the tame elapsed since the disease onset. In patients with progressive disease, there was an increased consumption of fibronectin which may be due both to its expenditure during blood coagulation and fulfillment of angioprotective function because of exacerbation of systemic atherosclerosis.
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PMID:[The content of fibronectin, fibrinogen, its degradation products and myoglobin in patients with ischemic heart disease]. 209

Changes in the extracellular matrix of haemodynamically stressed blood vessel walls were studied by immunofluorescence histochemistry in venous-pouch aneurysms fashioned on the site of the common carotid artery of nine sheep. Tissues from the thickened walls of the experimental aneurysms were examined from 11 to 98 months post-operatively for changes in the distribution of the basement membrane components type IV collagen, laminin, nidogen and fibronectin. In the younger aneurysms, there was an increase of the basement membrane components in the thickened area. Very little basement membrane was detected in older aneurysms. Diffuse staining for fibronectin was noted in aneurysms of all ages. Thick deposits of basement membrane material were observed in calcified tissues. The changes in the matrix proteins were similar to alterations occurring during the development of atherosclerosis in human vascular tissue.
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PMID:Distribution of type IV collagen, laminin, nidogen and fibronectin in the haemodynamically stressed vascular wall. 213 68

The plasma concentration of lipoprotein (a) (Lp(a] varies widely in humans, and elevated concentrations of this lipoprotein are correlated with progression of atherosclerosis. Structural studies of Lp(a) have revealed that it is a low density lipoprotein (LDL)-like particle containing a unique glycoprotein, apo(a), which shares extensive homology with plasminogen. The apo(a) portion of Lp(a) binds to the carboxy-terminal heparin-binding domain of fibronectin. Incubation of Lp(a) or isolated apo(a) with fibronectin results in proteolytic cleavage of fibronectin which is, as visualized by gel electrophoresis and immunoblotting, distinct from that caused by plasmin or kallikrein. The proteolytic activity of apo(a) is of serine proteinase-type and displays specificity for arginine rather than lysine bonds. The molecular mechanism(s) underlying the association between Lp(a) and atherosclerosis remains an enigma.
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PMID:Interaction of lipoprotein(a) with fibronectin and its potential role in atherogenesis. 214 25

Apolipoprotein B (apo B), fibrinogen/fibrin, blood platelets, factor VIII-related antigen of the blood coagulation system, and smooth muscle cells (SMC) were identified in the intima of normal and atherosclerotic human aorta and large arteries by the indirect immunofluorescence technique. Fibrinogen/fibrin was revealed by a monoclonal antibody (monAb) against the C-terminal region of human fibrinogen A alpha-chain. Fibronectin was visualized by monAb to the cellular form and against an epitope shared by different fibronectin subunit variants. In normal intima, fatty streaks, small amounts of fibrinogen/fibrin together with large amounts of apo B were observed. Fibronectin detected by two types of monAb was not found in extracellular matrix (ECM), whereas cellular fibronectin encircled SMC. According to the data obtained, fibrinogen/fibrin accumulates in plaques as a result of intramural thrombus incorporation, blood insudation, intramural haemorrhage, and in or around cells, apparently macrophages.
Atherosclerosis 1990 Jun
PMID:Visualization of apo B, fibrinogen/fibrin, and fibronectin in the intima of normal human aorta and large arteries and during atherosclerosis. 219 29

Apo B, fibrinogen/fibrin, fibronectin, thrombocytes, factor VIII of the blood coagulation and smooth muscle cells (SMC) were identified by the immunofluorescence method in the intima of aorta and big arteries under normal conditions and in atherosclerosis. Monoclonal antibodies (MCA) against C-end fragments of A alpha-fibrinogen chain were used in the study of fibrinogen/fibrin. MCA reacting with plasma fibronectin and those reacting with A-area of the polypeptide chain specific for the cell fibronectin were used for the identification of fibronectin. Small amount of fibrinogen/fibrin, no fibronectin in the extracellular matrix and the cell fibronectin around SMC were observed on the normal intima and lipid strip in spite of the presence of Apo B. The results indicate that fibrinogen/fibrin is accumulated in the plaques due to the incorporation of the wall thrombi, insudation from the blood plasma, intramural haemorrhages as well as around cells, presumably macrophages.
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PMID:[Apo B, fibrinogen-fibrin and fibronectin in the intima of the normal human aorta and large arteries and in atherosclerosis]. 220 Dec 75

Understanding the mechanisms involved in maintaining the integrity of the vascular endothelium is fundamental to studies on atherosclerosis, thrombosis, inflammation and tumor invasion. One of the essential aspects is the relationship between the endothelial cell (EC) layer and the underlying components of the basement membrane (BM). The importance of the biological role of the individual components of the BM in the promotion of EC adhesion is investigated. In this study suspensions of bovine corneal ECs (BCECs; 5 x 10(4)/ml) were used to investigate the adhesion of EC to collagen type IV and a mixture of fragments of the tetrameric molecule (IV-F, consisting of 75, 120 and 140 kD fragments), as well as collagen types I and III, coated at a 10-micrograms/ml concentration onto glass coverslips in vitro. Adhesion was quantified after 2 h of interaction by direct counting in the light microscope following fixation of the adherent cells. Collagens type IV and IV-F markedly promoted BCEC adhesion both in the presence or absence of 10 or 50% fetal calf serum, indicating that the integrity of the tetrameric molecule is not required for EC adhesion to collagen type IV, but can be replaced by high molecular weight fragments. Collagens type I and III increased EC adhesion in the absence of serum, although not in the presence of serum. Indirect evidence for a possible role of fibronectin in EC adhesion to type-IV collagen is given by the ability of the tetrapeptide (Arg-Gly-Asp-Ser (10 micrograms) to temporarily block (15-30 min) the adhesion-promoting effect of type-IV collagen. The nature of the adhesion sequences on the fragments of type-IV collagen remains to be elucidated.
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PMID:Interaction between endothelial cells and basement membrane components. In vitro studies on endothelial cell adhesion to collagen types I, III, IV and high molecular weight fragments of IV. 253 76

Herpes simplex virus (HSV) infection may be involved in various endothelial-injury syndromes, including vasculitis and atherosclerosis. In a previous study, it was reported that HSV-infected human umbilical endothelial cells are more vulnerable to detachment mediated by granulocyte-secreted proteases. To elucidate the molecular basis of this observation, the authors examined the interaction of infected endothelial cells with the purified basement membrane proteins, fibronectin, laminin, and type IV collagen. HSV-infected endothelial cells exhibited defects in their ability to adhere, spread, and migrate on all three matrix components. This defective adhesion could be partially overcome by increasing concentrations of fibronectin; in contrast, no abrogation of deficient binding occurs with increased levels of laminin or collagen type IV. This suggests that endothelial cells may use different surface constituents for binding to the three proteins and use multiple "receptors" for adhesion to the fibronectin molecule--"receptors" that are variably affected by HSV infection. The authors investigated this supposition by assaying adhesion of normal and infected endothelial cells to two non-overlapping cell-adhesion promoting fragments of fibronectin: 1) a 75 kd motility-promoting fragment which contains the arginyl-glycyl-aspartylserine (RGDS) adhesion sequence, and 2) a 33 kd carboxyl-terminal heparin binding fragment, which promotes cell adhesion by an RGDS-independent mechanism. Normal endothelial cells adhered and spread on both purified fragments. In contrast, while infected endothelial cells could adhere, albeit rather poorly, to high coating concentrations of the 75 kd fragment, these cells did not bind to the 33 kd heparin binding fragment of fibronectin at all. These results support the concept that endothelial cells adhere to multiple domains of fibronectin, and that HSV infection preferentially abrogates binding to the heparin-binding domain, while leaving relatively intact receptors for the RGDS-containing domain. In support, soluble RGDS significantly blocked fibronectin adhesion of infected, but not control, endothelial cells. It is concluded that HSV infection inhibits the interaction of endothelial cells with basement membrane proteins and weakens their tethering to substratum. This tethering is inadequate for proper cell spreading or movement to occur and may result in both excessive endothelial lift-off and impaired vascular repair in HSV infections.
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PMID:Herpes simplex virus inhibits endothelial cell attachment and migration to extracellular matrix proteins. 253 23


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