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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.
...
PMID:Modulation of human aorta smooth muscle cell phenotype: a study of muscle-specific variants of vinculin, caldesmon, and actin expression. 314 99
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
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.
...
PMID:Expressional regulation of smooth muscle cell-specific genes in association with phenotypic modulation. 1009 77
Production of genome sequence has recently skyrocketed with many advances in the understanding and etiology of certain diseases. Researchers have localized a region of the human genome that plays a role in determining a persons susceptibility to myocardial infarction. A new apolipoprotein gene that influences triglyceride levels in humans is also described. A recent study from Finland showed that certain families are likely to carry a genetic form of insulin resistance syndrome that predisposes them to accelerated
atherosclerosis
. Researchers identified 3 mutations in the gene producing a protein called
metavinculin
, which appears to be linked to abnormalities in cellular structures and function in patients with dilated cardiomyopathy. Gene therapy has emerged as a genuine therapeutic option with the potential to alter the manner in which cardiologists manage the 2 most common cardiac disorders--coronary artery disease and congestive heart failure. Along with angiogenesis and gene therapy, cell transplantation is one of the newest treatment modalities proposed to improve the outcome of patients with cardiac failure. Two major advances in stem cell therapy for cardiovascular disease were published recently. They demonstrate how bone marrow stem cells can regenerate myocardium in the infarct area of a mouse heart. A German Cardiologist has for the first time successfully transplanted a patients own stem cells in an infracted area in the heart. This review summarizes the current knowledge of the genetic associations with cardiac diseases.
...
PMID:Genetics and heart disease. 1259 Feb 66
