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)

Smooth muscle myosin heavy chains (MHC) exist in multiple isoforms. Rabbit smooth muscle contain at least three types of MHC isoforms; SM1 (204 kDa), SM2 (200 kDa) and SMemb (200 kDa). SM1 and SM2 are specific to smooth muscle, but SMemb is a nonmuscle-type MHC abundantly expressed in the embryonic aorta and in activated mesenchymal cells. We previously reported that these three MHC isoforms are differentially expressed in rabbit during normal vascular development and in experimental arteriosclerosis and demonstrated that MHC isoforms are excellent markers for smooth muscle phenotype. In order to clarify the clinical significance of MHC isoforms, this article will focus on the expression of smooth muscle MHC isoforms in normally developing and atherosclerotic human arteries, especially in coronary arteries. We recently isolated and characterized three cDNA clones encoding human SM1, SM2, and SMemb. The expression of SM2 mRNA in the human fetal aorta was significantly lower as compared to SM1 mRNA but the ratio of SM2- to SM1-mRNA was increased after birth. SMemb mRNA in the aorta was decreased after birth. Immunohistologically, SM1 was constitutively positive from the fetal stage to adulthood in the apparently normal media of the aorta and coronary arteries, whereas SM2 was not detected in fetal arteries of early gestational stage. SM2 was recognized in well-differentiated smooth muscle after perinatal stage. In the human aorta or coronary arteries, unlike in rabbit, SMemb was detected even in the adult. Mild diffuse intimal thickening in the major coronary arteries of the young was found to be composed of smooth muscle cells, reacting equally to three antibodies for MHC isoforms. In thickened but non-atheromatous intima, the expression of well-differentiated smooth muscle-specific MHC (SM2) was reduced, especially in the deeper layer. With progression of atherosclerosis, intimal smooth muscle diminished the expression of not only SM2 but also SM1, whereas alpha-smooth muscle actin was well preserved. We conclude from these results that smooth muscle MHC isoforms are important molecular markers for studying human vascular smooth muscle cell differentiation as well as the cellular mechanisms of atherosclerosis.
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PMID:Smooth muscle phenotypes in developing and atherosclerotic human arteries demonstrated by myosin expression. 922 3

F2-Isoprostanes are prostaglandin (PG) isomers formed in situ in cell membranes by peroxidation of arachidonic acid. 8-epi PGF2alpha and IPF2alpha-I are F2-isoprostanes produced in humans which circulate in plasma and are excreted in urine. Measurement of F2-isoprostanes may offer a sensitive, specific, and noninvasive method for measuring oxidant stress in clinical settings where reactive oxygen species are putatively involved. We determined whether isoprostanes were present in human atherosclerotic lesions, where lipid peroxidation is thought to occur in vivo. 8-epi PGF2alpha ranged from 1.310-3.450 pmol/micromol phospholipid in atherectomy specimens compared with 0.045-0.115 pmol/micromol phospholipid (P < 0.001) in vascular tissue devoid of atherosclerosis. Corresponding values of IPF2alpha-I were 5.6-13.8 vs. 0.16-0.44 pmol/micromol phospholipid (P < 0.001). Levels of the two isoprostanes in vascular tissue were highly correlated (r = 0.80, P < 0.0001). Immunohistochemical studies confirmed that foam cells adjacent to the lipid necrotic core of the plaque were markedly positive for 8-epi PGF2alpha. These cells were also reactive with anti-CD68, an epitope specific for human monocyte/macrophages. 8-epi PGF2alpha immunoreactivity was also detected in cells positive for anti-alpha-smooth muscle actin antibody, which specifically recognizes vascular smooth muscle cells. Our results indicate that 8-epi PGF2alpha and IPF2alpha-I, two distinct F2-isoprostanes and markers of oxidative stress in vivo, are present in human atherosclerotic plaque. Quantitation of these chemically stable products of lipid peroxidation in target tissues, as well as in biological fluids, may aid in the rational development of antioxidant drugs in humans.
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PMID:Localization of distinct F2-isoprostanes in human atherosclerotic lesions. 932 67

The distribution of apolipoprotein (apo) J during the development of atherosclerosis in the human aorta was evaluated by immununohistochemical observation, together with the other apolipoprotein A-I, A-II, B, C-III, and E. Although apoJ was never observed in the normal aorta (ie, without any intimal lesions or intimal thickening), it was distributed not only in the intima but also in the media of aortas with diffuse, intimal thickening or atherosclerotic lesions. Double immunostaining with antibodies for apoJ and alpha-smooth muscle actin revealed apoJ deposition in smooth muscle cells (SMCs) or the aortic stroma in the vicinity of SMCs. The extent of apoJ distribution in the aortic wall increased with the degree of atherosclerosis development. In addition, the distribution pattern of apoJ was very similar to that of apoA-I and E. In situ hybridization with human apoJ cDNA demonstrated intense signals in cells scattered within the subendothelial space and medial SMCs of the aorta with advanced atherosclerosis but not in those of the normal aorta without intimal thickening. Furthermore, reverse transcriptase-polymerase chain reaction of the cultured human aortic SMCs revealed apoJ mRNA expression in these cells. The results indicate that apoJ in the aortic wall originates from not only apoJ circulated in the plasma but also apoJ produced by SMCs in the aortic wall. Considering the similarities of the distribution between apoJ and apo-A-I or E, we hypothesize that apoJ possibly has a protective role against human atherosclerosis by its involvement with cholesterol transport from the aortic wall to the liver.
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PMID:Distribution and synthesis of apolipoprotein J in the atherosclerotic aorta. 955 74

Diabetes mellitus is a major risk factor for atherosclerosis. In atherosclerotic lesions, arterial smooth muscle cells (SMC) change from a contractile to a synthetic phenotype characterized by active proliferation. A similar phenotype modulation occurs in vitro when isolated arterial SMC are grown in culture and is characterized by both changes in cell morphology and a typical switch in actin isoform expression. In this study, we examined the influence of streptozotocin (STZ)-induced diabetes on the differentiation state and the phenotype modulation of cultured rat aortic SMC. We used transmission electron microscopy to study the fine structure of STZ-diabetic and non-diabetic SMC in primary culture and immunological methods for the determination of the proportions of alpha-smooth muscle actin (alpha-SM) and nonmuscle beta-actin (beta-NM) isoforms. Cultured STZ-diabetic SMC exhibited a large cytoplasmic volume, rich in rough endoplasmic reticulum, when compared with cultured non-diabetic SMC. alpha-SM, organized in stress fibers, was less homogeneously and abundantly distributed and by contrast, beta-NM was more abundant in STZ-diabetic than in non-diabetic SMC. Cytofluorimetric analyses demonstrated that the alpha-SM content was reduced in freshly STZ-diabetic SMC. Furthermore, during logarithmic growth of cultured SMC, the decrease of alpha-SM was more important in STZ-diabetic than in non-diabetic SMC. Immunoblotting of actin isoforms confirmed that expression of beta-NM was more important in STZ-diabetic than in non-diabetic SMC even in freshly isolated cells. The results suggest that SMC from STZ-diabetic rats express a more dedifferentiated state and undergo a more rapid phenotypic modulation in primary cultures than SMC from non-diabetic rats. Therefore, diabetes could induce changes in the phenotype of arterial SMC which might be associated with the onset or progression of the atherogenic process.
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PMID:Phenotype modulation in primary cultures of aortic smooth muscle cells from streptozotocin-diabetic rats. 974 13

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

The administration of L-arginine to normal animals leads to an increase in renal plasma flow and glomerular filtration rate (GFR). Administration on a chronic basis of N-nitro-L-arginine methylester (L-NAME), an antagonist of L-arginine, increases blood pressure and reduces the ultrafiltration coefficient. In rats with ureteral obstruction, the administration of L-arginine increases GFR and renal blood flow in the postobstructive kidney. Administration of L-arginine decreased the macrophage infiltration of the renal parenchyma that occurs in this model. L-arginine administration also blunted the increases in interstitial volume, collagen deposition, and expression of alpha-smooth muscle actin in the obstructed kidney. L-arginine administration to rats with subtotal nephrectomy reduced proteinuria and the number of abnormal glomeruli. Some of these effects may be mediated by nitric oxide (NO). In rats with diabetes, administration of L-arginine decreased hyperfiltration and proteinuria. The role of arginine and NO in glomerular diseases is controversial. In general most of the evidence indicates a beneficial change in the renal pathology and function in animals with glomerulonephritis receiving L-arginine. Most of the evidence indicates that the L-arginine-NO pathway has an important role in ameliorating hypertension, renal disease, inflammation and atherosclerosis.
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PMID:Can L-arginine manipulation reduce renal disease? 1022 37

Dendritic cells are potent antigen-presenting cells responsible for the activation of T-lymphocytes in various immune responses. Their role in the initiation of immune reactions in allergies, autoimmune diseases, tumors, transplantation, and, more recently, in atherosclerosis has been well established, but their involvement in venous pathologies has not been previously investigated. The aim of this study was to determine whether dendritic cells are present in veins affected by varicosity and thrombophlebitis. Three groups of veins obtained at operation were studied: (1) varicose veins of the great saphenous vein from patients who were undergoing vein stripping for primary varicosity; (2) segments of the great saphenous vein from patients with varicosity complicated by thrombophlebitis; and (3) great saphenous veins without varicosity or thrombophlebitis from patients who were undergoing femoropopliteal bypass grafting. The specimens were fixed in 10% neutral buffered formalin and embedded in paraffin, and the sections were stained with antibodies to S-100 (to identify dendritic cells), CD3 (T-lymphocytes), CD68 (macrophages), von Willebrand factor (endothelial cells), alpha-smooth muscle actin (smooth muscle cells), and CD15 (mast cells) by use of avidin-biotin complex (ABC) immunoperoxidase technique. Immunohistochemical examination showed that no S-100-positive dendritic cells were present in normal saphenous veins. In contrast, S-100-positive cells with dendritic cell morphology were detected in the intima and media of veins with varicosity and thrombophlebitis, where they represented a minor cell population. S-100-positive dendritic cells were located between smooth muscle cells as well as around areas of neovascularization where they colocalized with T-lymphocytes. The present work suggests that dendritic cells might be involved in pathological processes in veins affected by varicosity and thrombophlebitis. The authors speculate that dendritic cells may be involved in the inflammatory mechanisms in these veins through their interaction with T-lymphocytes.
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PMID:Dendritic cells in venous pathologies. 1034 27

Avian models of atherosclerosis helped pioneer the study of vascular biology, and offer economic and technical advantages over mammalian models. As an initial step towards investigating important molecular pathways involved in avian atherogenesis and restenosis, we developed a recombinant adenovirus (Ad) which expresses the reporter gene beta-galactosidase (beta-gal), and applied it to cultured chicken vascular smooth muscle cells (SMCs) and a rooster model of acute vascular injury. In cultured chicken SMCs, recombinant gene expression increased as a function of multiplicity of infection (MOI) and incubation time. Maximal expression occurred at an MOI of 10(4) plaque-forming units (pfu)/cell with approximately 50% of quiescent and non-quiescent chicken SMCs expressing beta-gal. Human aorta SMCs had two- to four-fold increased beta-gal expression compared with chicken SMCs at all MOI and incubation times. In vivo instillation of recombinant Ad into uninjured rooster femoral artery segments revealed low efficiency endothelial cell expression of the reporter gene. In contrast, recombinant Ad infection of rooster femoral artery segments 3-21 days after balloon injury revealed up to 60% of luminal surface beta-gal expression, confined predominantly to the neointimal layer. Peak reporter gene expression efficiencies occurred in arterial segments infected 3 days after balloon injury. Uninfected and control Ad infected arteries had no detectable beta-gal expression. Rooster neointimal cells targeted by the recombinant Ad were identified as alpha-smooth muscle actin containing cells by immunohistochemistry. We conclude that Ad-mediated gene transfer is efficient and selective for the neointima in the rooster acute vascular injury model, and offers the potential to efficiently introduce exogenous genes that may impact on the injury response. This model of acute vascular injury may also be manipulated into more established avian models of atherosclerosis, permitting the investigation of acute injury progression to chronic injury.
Atherosclerosis 1999 Sep
PMID:Selective neointimal gene transfer in an avian model of vascular injury. 1048 89

This study utilized both in vivo and in vitro techniques to investigate whether cells of bone marrow origin can differentiate into smooth muscle-like cells (myofibroblasts) with contractile filaments and proteins. Female C57BL/6 mice expressing the Ly5.2 antigen on the surface of their haemopoietic cells had four pieces of silastic tubing (3 x 0.5 mm outer diameter) or boiled blood clot (2-3 mm diameter) placed in their peritoneal cavity. After 3, 5, 7 and 14 days (n = 4/group) the implants were removed and those that had remained free-floating were processed for light microscopy, immunohistochemistry and electron microscopy. In the first 3-5 days, rounded cells adhered to the entire surface of the tubing then flattened. These cells stained with fluoresceinated antibodies to Ly5.2 showing that they were derived from haemopoietic cells. By 14 days the cells had become elongated and multilayered in a collagen matrix, forming a thick tissue capsule around the tubing or boiled clot. They contained contractile filaments and stained with antibodies to alpha-smooth muscle actin but no longer stained for Ly5.2. A separate set of female C57BL/6 Ly5.2 mice were X-irradiated to destroy bone marrow then immediately transfused with 10(6) nucleated bone marrow cells taken from the femur and tibia of a congenic strain of male mice expressing the Ly5.1 allele. Eight of the female mice with successful engraftment (80-99%) had silastic tubing implanted in the peritoneal cavity. After 14 days, in situ hybridization with Y chromosome probe confirmed the male donor, and thus bone marrow, origin of the elongated cells that formed the capsule. In vitro studies showed that cells of the murine macrophage cell lines RAW 264.7 and J774 express alpha-smooth muscle actin after exposure to the cytokine gamma-interferon in vitro. These data show that bone marrow-derived cells can differentiate into smooth muscle-like cells and raises the possibility that blood-derived cells may contribute to the development of fibro-proliferative vascular diseases such as atherosclerosis.
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PMID:Haemopoietic origin of myofibroblasts formed in the peritoneal cavity in response to a foreign body. 1102 99

In vivo studies have suggested that norepinephrine (NE) directly contributes to normal vascular wall growth and worsening of hypertrophy, atherosclerosis, and restenosis. However, it is unknown whether these effects are secondary to hemodynamic changes caused by systemic NE or alpha-adrenoceptor (AR) antagonists. Herein, we determined if NE directly stimulates growth of medial smooth muscle cells (SMCs) and adventitial fibroblasts (AFBs) that we have shown express alpha1-ARs in similar abundance. The rat aorta was isolated before injury, 4 days after, or 12 days after balloon injury, and maintained under circumferential tension in organ culture for 48 hours with 1 micromol/L NE. Intima-media and adventitia were separated and DNA content, protein synthesis, and protein content measured. In uninjured aorta, NE increased DNA and protein content similarly in adventitia, and increased only protein content in intima-media, suggesting AFB proliferation and SMC hypertrophy. In vessels isolated 4 or 12 days after injury, NE increased all 3 endpoints in both layers by up to 20-fold greater than in uninjured vessels. These effects were dose-dependent and were unaffected by alpha2- or beta-AR blockade (except increased DNA content in adventitia that was also inhibited by alpha2-AR blockade). Intima-media growth was blocked by KMD3213 (alpha1A-AR antagonist) and adventitial growth by AH11110A (alpha1B-AR antagonist), whereas BMY7378 (alpha1D-AR antagonist) had no effect. NE decreased SMC marker proteins (eg, alpha-smooth muscle actin and desmin) and augmented the changes induced by injury. These data suggest that prolonged stimulation of alpha1A- and alpha1B-ARs induces growth of SMCs and AFBs, respectively, that is significantly augmented by injury.
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PMID:Trophic effect of norepinephrine on arterial intima-media and adventitia is augmented by injury and mediated by different alpha1-adrenoceptor subtypes. 1167 12


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