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)

Vinculin- and caldesmon-immunoreactive forms and actin isoform patterns were studied in samples of normal and atherosclerotic human aorta. After removal of adventitia and endothelium, the remaining tissue was divided into three layers: media, muscular-elastic (adjacent to media) intima, and subendothelial (juxtaluminal) intima. In media of normal aorta, meta-vinculin accounted for 41.0 +/- 0.9% (mean +/- SEM) of total immunoreactive vinculin (meta-vinculin + vinculin); 150-kDa caldesmon accounted for 78.2 +/- 5.1% of immunoreactive caldesmon (150-kDa + 70-kDa); the fractional contents of alpha-smooth muscle actin, beta-nonmuscle, and gamma-isoactins were 49.0 +/- 0.6%, 30.4 +/- 0.6%, and 20.8 +/- 0.8%, respectively. Muscular-elastic intima was very similar to media by these criteria. In subendothelial intima, the fractional content of meta-vinculin and 150-kDa caldesmon was significantly lower (6.9 +/- 1.5% and 32.7 +/- 7.0%, respectively) than in muscular-elastic intima and media, whereas the isoactin pattern was identical to that in adjacent layers, demonstrating the smooth muscle origin of subendothelial intima cells. In atherosclerotic fibrous plaque, the fractional content of alpha-actin was decreased in subendothelial intima, rather than in media and muscular-elastic intima. Additionally, the proportion of subendothelial intima cells [i.e., the cells that express low amounts of smooth muscle phenotype markers (meta-vinculin, 150-kDa caldesmon, and alpha-actin)] in the total intima cell population increased dramatically in atherosclerotic fibrous plaque. The results suggest that changes in the relative content of meta-vinculin and 150-kDa caldesmon as well as alpha-actin in human aortic intima are associated with atherosclerosis although, in subendothelial intima of normal aorta, a certain smooth muscle cell population exists that expresses reduced amounts of "contractile" phenotype markers, even in the absence of the disease.
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PMID:Modulation of human aorta smooth muscle cell phenotype: a study of muscle-specific variants of vinculin, caldesmon, and actin expression. 314 99

Although the endothelial cell (EC) cytoskeleton has been studied both in vitro and in vivo, little is known about its role in endothelial integrity. We have previously suggested that specific EC microfilament (MF) structure, which we have termed the "dense peripheral band (DPB)," may play a major role in this process. We have extended our studies to characterize this structure in pig aortic ECs in vitro. During the growth of EC cultures, the DPB appears only when the cultures have attained confluency. Using double fluorescent labeling, we found that alpha-actinin, myosin, and tropomyosin colocalized with the F-actin making up the DPB. Occasional microtubules were present in this region, although there was no preferred association between microtubules and the DPB. Colocalization studies revealed vinculin plaques at the cell-cell interface. Thin MFs extended from the DPB into the cytoplasmic side of these plaques. The DPB was completely disrupted by low dose cytochalasin B within 30 minutes, whereas many central MF bundles were still present at 24 hours. The results of this study suggest that the DPB is a distinct structure in the confluent EC monolayer and is closely associated with the ability of ECs to form and maintain the EC monolayer. The disruption of the DPB as an important initial event in the pathogenesis of vascular diseases such as atherosclerosis is discussed.
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PMID:Endothelial cell monolayer integrity. I. Characterization of dense peripheral band of microfilaments. 395 75

In the present study we demonstrate that the quantitative reduction of meta-vinculin expression parallels histological changes during the course of coronary arteriosclerosis. Immunofluorescence stainings of coronary arteries revealed that vinculin distribution resembled that of other smooth muscle-specific cytoskeletal proteins like alpha-actin, caldesmon or myosin light chain kinase in labeling smooth muscle cells brightly. Although close to arteriosclerotic plaques, the cellularity as measured by the density of nuclei was often not significantly altered. Cells of this location expressed markedly reduced amounts of vinculin, suggesting that they are smooth muscle cells of a synthetic phenotype. To determine the fractional meta-vinculin content in arteriosclerotic lesions, we performed densitometric scanning of immunoblots incubated with anti-vinculin monoclonal antibodies reacting with both meta-vinculin (150 kDa) and vinculin (130 kDa). In parallel, each tissue sample was evaluated histologically for the degree of arteriosclerotic alterations according to the morphometric atheroma score of Stratford et al. (n = 13). In type 1 lesions covering slight intimal thickening, meta-vinculin represented 36% (mean, range 35%-39%) of the total vinculin immunoreactivity. In type 2 lesions consisting of fibrous plaques of up to twice the original artery wall thickness, meta-vinculin accounted for 28% (mean, range 22%-35%) of the total vinculin content. Meta-vinculin was substantially reduced in type 3 lesions (mean 13%, range 8%-18%) which are characterized by extensive atheromatous plaques. Thus, the meta-vinculin/vinculin ratio differed significantly between early, intermediate and advanced phases of coronary arteriosclerotic plaque formation.
Atherosclerosis 1994 Nov
PMID:Expression of meta-vinculin in human coronary arteriosclerosis is related to the histological grade of plaque formation. 784 Aug 6

The localization of proteases to cell surfaces via receptors may facilitate cell migration, invasion, and matrix degradation. Since vascular smooth muscle cell (SMC) migration may be an important event in atherosclerosis and in intimal thickening after vascular injury, we studied the cell surface expression of a receptor for urokinase-type plasminogen activator (u-PAR) in cultured human vascular SMC. Using immunofluorescence microscopy, we demonstrated several staining patterns of SMC u-PAR: at the periphery of the cell membrane, at the leading edge, and at cell-cell contact sites. When migration experiments were performed using a wound assay, one-third of the SMC at the wound edge demonstrated polarization of cell surface u-PAR toward the leading edge of the cell membrane (32 +/- 2%, +/- SEM, n = 7). A similar pattern was seen with an antibody to caveolin, a transmembrane protein found in caveolae, but not with an antibody to 5'-nucleotidase, another cell surface glycophosphatidylinositol-anchored protein, which was homogeneously expressed on the cell surface. Low-density lipoprotein receptor-related protein, which mediates internalization of u-PAR bound ligands, was distributed in a diffuse punctate pattern, not polarized to the leading edge. Double immunofluorescent studies demonstrated codistribution of SMC u-PAR with vinculin and caveolin in migrating SMC at the leading edge in a wound assay. Polarization of cell surface u-PAR was not observed in either nonwounded or subconfluent cultures, despite random migratory behavior. These studies suggest that in response to wounding, human vascular SMC polarize and concentrate cell surface u-PAR to their leading edge, perhaps facilitating directional migration.
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PMID:Migrating vascular smooth muscle cells polarize cell surface urokinase receptors after injury in vitro. 786 16

In experimental models of atherosclerosis, activation of smooth muscle cell (SMC) migration from the media to the intima is preceded by intimal accumulation of inflammatory cells, suggesting that cytokines may be involved in this process. The present study demonstrates that tumor necrosis factor-alpha (TNF-alpha) regulates cytoskeletal organization of SMCs by inducing depolymerization of actin stress fibers and dispersion of vinculin from sites of focal adhesion and stimulates the migration of cultured human SMCs in a dose-dependent manner. Moreover, TNF-alpha induces rapid activation of the c-ets-1 gene, which codes a transcription factor known to regulate enzymes important for matrix degradation during cell migration. Balloon catheter injury of the rat femoral artery resulted in medial expression of TNF-alpha within 6 hours. This expression appeared to be localized to SMCs and remained elevated until SMCs began to migrate into the intima 7 days after injury. These findings demonstrate that TNF-alpha has a stimulatory effect on SMC migration and suggest that TNF-alpha may be involved in the intimal recruitment of SMCs during plaque formation.
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PMID:Tumor necrosis factor-alpha activates smooth muscle cell migration in culture and is expressed in the balloon-injured rat aorta. 910 67

We investigated the effect of bacterial toxins that modify and inactivate Rho GTP-binding proteins on the migratory response of endothelial cells to wounding. C3-transferase from Clostridium botulinum, EDIN from Staphylococcus aureus, and toxin A from Clostridium difficile blocked migration of human umbilical vein endothelial cells (HUVECs) in an in vitro wound repair assay. Migrating HUVECs expressed actin microspikes (maximum at 10 minutes after wounding), ruffles (maximum at 12 hours), and fibers (maximum at 24 hours), and within these actin structures, vinculin-containing focal complexes/adhesions were formed. C3-Transferase ADP ribosylated RhoA, RhoB, and RhoC in HUVECs and abolished the formation of actin stress fibers/focal adhesions but had no effect on expression of microspikes, ruffles, or the associated vinculin-containing focal complexes. Similar results were obtained with EDIN and toxin A. These results indicate that endothelial cells migrating into a wounded area express distinct combinations of actin/vinculin structures in a spatially and temporally coordinated manner. The GTPase Rho selectively controls the formation of actin fibers/focal adhesions that occurs 2 to 24 hours after wounding. A mechanism is proposed by which Rho-specific bacterial toxins could influence vascular repair, angiogenesis, or atherosclerosis.
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PMID:Bacterial toxins block endothelial wound repair. Evidence that Rho GTPases control cytoskeletal rearrangements in migrating endothelial cells. 932 54

Smooth muscle cell differentiation and proliferation are increasingly seen to be intimately tied to the etiology of atherosclerosis and hypertension. To determine the role of PKC alpha in the regulation of smooth muscle cell differentiation and proliferation, the rat embryonic smooth muscle cell line A7r5 was transfected with an expression vector containing the full-length PKC alpha cDNA. Neomycin-resistant clones which exhibited increased PKC alpha levels compared to wild-type cells were selected. The A7r5 cells overexpressing PKC alpha had altered morphology and decreased growth rates compared to wild-type cells and cells transfected only with the neomycin resistance gene. Electrophoretic mobility shift assays showed that nuclear extracts from overexpressing clones gave a different pattern of protein-DNA binding to an AP-1 consensus oligonucleotide compared to wild-type cells. In contrast to the growth characteristics of these clones, their levels of cell differentiation marker proteins such as vinculin and desmin were not affected by PKC alpha overexpression. Moreover, the smooth muscle-specific differentiation marker alpha-actin was markedly reduced, while beta-actin levels were found to remain unchanged. Northern blot analysis confirmed that alpha-actin downregulation occurred at the RNA level. Western blot analysis revealed that A7r5 cells have five different PKC isoforms and that these isoform protein levels were not changed by PKC alpha overexpression. These findings suggest that PKC alpha regulates growth and differentiation of A7r5 smooth muscle cells and that these changes might result from altered expression/function of AP-1 transcription factors.
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PMID:Effects of protein kinase C alpha overexpression on A7r5 smooth muscle cell proliferation and differentiation. 934 91

Arterial endothelial layer dysfunction is considered to be one of the most important events which initiate the development of the atherosclerotic plaque and the cell cytoskeleton plays an essential role in maintaining the integrity of the endothelium exposed continuously to haemodynamic forces. The aim of this work was to study the modifications of the cytoskeletal proteins in the vascular endothelium exposed to atherogenic conditions. A hamster aortic endothelial cell line (HAEC) grown on glass coverslips was exposed for 24 h to hypercholesterolemic or normal homologous serum. Upon staining with Oil Red O and examination by phase contrast and fluorescence microscopy, HAEC incubated with hypercholesterolemic serum appeared heavily loaded with lipid droplets that showed a yellow autofluorescence in UV light and the general aspect of a foam cell. HAEC were incubated with: a) anti-actin serum; b) anti-vinculin monoclonal antibody (MoAb); c) anti-alpha actinin MoAb, and d) anti-talin MoAb, followed by appropriate secondary antibodies coupled with FITC or rhodamine. As compared to normal HAEC, the cells exposed to hypercholesterolemic serum showed a modified pattern for actin and vinculin localization. Actin appeared as a weakly stained network around the nuclear zone whereas vinculin was distributed as small granules throughout the cell cytoplasm. These experimental data suggest that in advanced atherosclerosis, some of the endothelial cytoskeletal proteins undergo modifications which could represent one of the important factors involved in further development of the atheromatous plaque. In addition they indicate that HAEC exposed to hypercholesterolemic serum could represent an in vitro working model for studying the events occurring in the endothelium at advanced stages of atherosclerosis.
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PMID:Exposure to hypercholesterolemic serum modifies the expression of cytoskeletal proteins in cultured endothelia. 939 91

Vasodilator-stimulated phosphoprotein (VASP) is associated with focal adhesions and areas of dynamic membrane activity, where it is thought to have an important role in actin filament assembly and cell motility. VASP contains a central proline-rich sequence which recruits the G-actin binding protein profilin. Localization of VASP to the leading edge of a migrating cell can lead to local accumulation of profilin, which in turn can supply actin monomers to growing filament ends. VASP binds to the focal adhesion proteins vinculin and zyxin and this probably directs the phosphoprotein to focal adhesions and the leading edge of stimulated cells. VASP functions as a binding intermediate between profilin and focal adhesion proteins. Intracellular pathogens, including Listeria monocytogenes, have coat proteins which bind VASP. This is one way in which these pathogens use VASP, and other proteins from the host cell, to assemble the actin filaments they require to move around the cytoplasm of infected cells and enter neighbouring cells. Understanding the role of VASP and other proteins in cell and bacterial motility is likely to lead to development of new therapeutic strategies for diseases including atherosclerosis and tumour growth, and for limiting the spread of intracellular pathogens.
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PMID:The focal adhesion phosphoprotein, VASP. 961 73

Phenotypic modulation of smooth muscle cells (SMCs) plays an integral role in atherosclerosis, hypertension and leiomyogenic tumorigenicity. The morphological, functional, and biochemical characteristics of SMCs in different phenotypes such as differentiated and dedifferentiated states have been well studied. Recent researches have focused on the expressional regulation of SMC-specific marker genes in association with phenotypic modulation of SMCs. The SMC-specific marker genes are regulated at the levels of transcription and splicing. The caldesmon, smooth muscle myosin heavy chain, alpha-smooth muscle actin, calponin, SM22, alpha- and beta-tropomyosins, and alpha1 integrin genes are transcriptionally regulated; transcription of these genes except for the alpha-smooth muscle actin gene is upregulated in differentiated SMCs, but is downregulated in dedifferentiated SMCs. The expression pattern of alpha-smooth muscle actin is opposite in vascular and visceral SMCs. In almost all promoter regions of these genes, the CArG box and serum response factor (SRF) are involved in as the positive cis-element and the trans-acting factor, respectively. Isoform changes of caldesmon, alpha-tropomyosin, vinculin/metavinculin, and smooth muscle myosin heavy chain are regulated by alternative splicing in a SMC phenotype-dependent manner. Among them, isoform interconversions of caldesmon and alpha-tropomyosin are completely coordinated with phenotype of SMCs. The purpose of this paper is to summarize current knowledge of the expressional regulation of SMC-specific marker genes in different phenotypes of SMCs.
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PMID:Expressional regulation of smooth muscle cell-specific genes in association with phenotypic modulation. 1009 77


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