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)

Calcification and fibrointimal proliferation are associated with advanced complicated atherosclerosis in large arteries but may also occur in smaller vessels, resulting in ischaemic tissue necrosis. This study investigates whether the mechanisms of calcification and intimal fibrosis are similar in vessels of different sizes. The localization of osteopontin (OPN), matrix Gla protein (MGP), thrombospondin-1 (TSP-1), and cartilage oligomeric matrix protein (COMP) was investigated in three types of human vascular lesions: atherosclerosis, chronic vascular rejection (CVR) in renal allografts, and calcific uraemic arteriolopathy (calciphylaxis). These lesions were chosen as they affect different sized blood vessels and they exhibit a fibroproliferative intimal reaction, with or without calcification, resulting in luminal obliteration and ischaemic complications. OPN, MGP, TSP-1, and COMP were not detected in normal blood vessels. However, OPN and MGP were expressed at sites of calcification within atherosclerotic lesions and in microvessels in calciphylaxis, suggesting that calcification in different sized vessels may occur by a common mechanism. These proteins were not detected in areas of fibrointimal proliferation. In contrast, TSP-1 was localized primarily within the fibrous tissue of atherosclerotic lesions and was also expressed in the expanded fibrous intima of arteries showing CVR. COMP was localized primarily within the fibrous tissue under the lipid core of the majority of advanced atherosclerotic lesions. TSP-1 and COMP were also detected in areas of microcalcification in atherosclerotic lesions and TSP-1 was detected adjacent to areas of calcification in calciphylaxis. However, neither TSP-1 nor COMP was localized to calcific foci within these lesions. The localization of OPN, MGP, TSP-1, and COMP to pathological, but not normal arterial intima supports a pathogenetic role for these proteins in the development of vascular fibrosis and calcification. Modulation of their production and activity may offer a novel approach to the therapy of a number of vascular diseases.
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PMID:The involvement of matrix glycoproteins in vascular calcification and fibrosis: an immunohistochemical study. 1179 75

Atherosclerotic lesions display a nonuniform distribution throughout the vascular tree. Mechanical forces produced by local alterations in blood flow may play an important role in the localization of atherosclerosis. One such force, cyclic strain, has been hypothesized to promote atherogenesis by inducing oxidative stress in endothelial cells, resulting in enhanced endothelial adhesiveness for monocytes. To investigate the signal transduction systems involved, human aortic endothelial cells were plated on flexible silicone strips that were either non-coated or adsorbed with poly-L-lysine, vitronectin, fibronectin, or collagen I. Cells were then subjected to uniform sinusoidal stretch (10%) for 6 h. Endothelial superoxide anion production was increased in cells exposed to cyclic strain compared to static conditions. Furthermore, endothelial oxidative response to stretch was matrix protein-dependent, whereas cells grown on fibronectin and collagen I produced significantly more superoxide. The oxidative response to cyclic strain was reduced by coincubation with RGD peptides, blocking antibodies to alpha2- and beta-integrins antibodies, as well as inhibitors of protein kinase C. To investigate the effect of oxidative stress on gene transcription, endothelial cells grown on collagen I were transfected with an NFkappaB-sensitive luciferase construct. Cells that underwent cyclic strain displayed a tenfold induction of NFkappaB activation compared to static controls. Strain-induced luciferase activity was blunted by coincubation with RGD peptides or calphostin C. Thus, exposure of endothelial cells to cyclic strain led to integrin activation of a PKC-sensitive pathway that results in increased superoxide anion production and mobilization of NFkappaB.
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PMID:Mechanotransduction of endothelial oxidative stress induced by cyclic strain. 1182 81

Progressive fibrosis in major organs, including the heart, the kidney and the vascular tree, plays an important role in mediating chronic disease and atherosclerosis. Production of extracellular matrix proteins, in many cases regulated by the growth factor TGF-beta is an essential component of this process. In a parallel manner to TGF-beta, the cyclin kinase inhibitors (CKIs; which are induced by TGF-beta) regulate transit through the cell cycle, and their effect on growth has been shown to be bimodal in the case of vascular smooth muscle (VSM) cells. Using an antisense oligodeoxynucleotide to the CKI p21(Waf1/Cip1), developed in our laboratory and shown to specifically inhibit p21(Waf1/Cip1) protein levels, we asked whether attenuation of the CKI p21(Waf1/Cip1) by transfection of this oligodeoxynucleotide results in the abolition of TGF-beta-mediated growth inhibition and/or diminished matrix protein production and secretion in the presence or absence of TGF-beta. Specific inhibition of p21(Waf1/Cip1) protein with the antisense oligodeoxynucleotide markedly reduces the production and secretion of the matrix proteins fibronectin and laminin, both in the presence and absence of TGF-beta stimulation, in VSM cells as observed by Western blotting of cell lysate and conditioned medium. In addition, TGF-beta-mediated cell growth inhibition, though attenuated by this oligo, is preserved. Due to the relative ease and safety of transfecting antisense oligodeoxynucleotides into VSM, we believe that this work unmasks a potentially powerful technique for inhibition of matrix protein synthesis in VSM and related cell lines, and may lead to new treatment strategies for atherosclerotic as well as other systemic diseases characterized by aberrant matrix protein secretion.
Atherosclerosis 2002 Mar
PMID:Attenuation of matrix protein secretion by antisense oligodeoxynucleotides to the cyclin kinase inhibitor p21(Waf1/Cip1). 1188 22

Biochemical and genetic evidence support the involvement of leukocyte-type 12/15-lipoxygenase enzyme and its products in the atherogenic process. We recently showed that products of the 12/15-lipoxygenase pathway play an important role in mediating hypertrophy, matrix protein production, and inflammatory gene expression in vascular smooth muscle cells (VSMC) through activation of mitogen activated protein kinases and key transcription factors. The current study is aimed at establishing the in vivo role of 12/15-lipoxygenase in VSMC by comparing growth factor-induced responses in VSMC derived from 12/15-lipoxygenase knockout mice versus genetic control wild-type mice. In the lipoxygenase knockout cells, 12/15-lipoxygenase protein was not expressed, and levels of its product, 12(S)-hydroxyeicosatetraenoic acid, were reduced (51% of wild type). Knockout cells exhibited significantly lower rates of growth factor-induced migration, fibronectin production, and incorporation of 3H-thymidine and 3H-leucine (54%, 55%, 61%, and 57% of wild type, respectively). Growth factor-induced superoxide production and p38 mitogen-activated protein kinase activation were also reduced in knockout cells. Serum-stimulated AP-1 transcription factor activation was markedly reduced (50% of wild type), whereas cAMP response element binding protein activation was abrogated in knockout cells. Furthermore, growth factor-induced mRNA expression of immediate early genes and fibronectin were also greatly reduced. These results suggest that the modulation of specific signaling pathways and growth-responsive genes may be responsible for the altered growth factor responses in the lipoxygenase knockout cells. They also demonstrate the important in vivo role of vascular 12/15-lipoxygenase in VSMC growth, migration, and matrix responses associated with hypertension, atherosclerosis, and restenosis.
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PMID:Reduced growth factor responses in vascular smooth muscle cells derived from 12/15-lipoxygenase-deficient mice. 1270 89

Arteriosclerosis, atherosclerosis and vascular calcification are causally related to the high morbidity and mortality of patients with chronic renal failure. Oxidative stress and carbonyl stress of uremia, dialysis procedure and/or intravenous iron therapy result in AGE (advanced glycation end-product), ALE (advanced lipoxidation end-product) and AOPP (advanced oxidation protein product) formation, favouring together with elevated CRP (C-reactive protein) levels the development of cardiovascular and cerebrovascular complications. Enhanced plasma levels of homocysteine and ADMA (asymmetric dimethylarginine) contribute to this process. In addition, in chronic renal insufficiency hyperphosphatemia and an enhanced calcium x phosphorus ion product are associated with the morbidity and mortality of the patients, particularly in the presence of fetuin deficiency. Phosphorus, AGEs and AOPPs, beside other factors, catalyze the conversion of vascular smooth muscle cells to osteoblast--like cells (particularly in the presence of monocytes/macrophages), resulting in bone matrix protein formation. Other risk factors, such as age, male sex, smoking, hypertension, diabetes, chronic inflammation, insulin resistance or dyslipidemia (enhanced non-HDL-cholesterol) also contribute to the atherosclerotic risk profile of the patient with chronic renal insufficiency. While there is growing understanding of the mechanisms involved in arteriosclerosis, atherosclerosis and vascular calcification in uremia, we are still missing effective therapeutic maneuvers for reduction of excess mortality in uremic patients.
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PMID:[Atherosclerosis and uremia: signifance of non-traditional risk factors]. 1277 74

Recently, evidences are accumulating that there is a close relationship between bone and vasculature and both organs are regulated by common factors. Thus, matrix Gla protein (MGP) , which is a non-collagen bone matrix protein was shown to be an important regulator of calcification both in the cartilage and blood vessel. We have recently shown that natriuretic peptides are very potent regulator of endochondral bone formation. Vascular "calcification" resembles the process of bone formation in many aspects. These observations suggest the possibility that osteoporosis and vascular lesions such as atherosclerosis and vascular calcification, are based on common factors, as in the case of multiple risk factor syndrome. Some drugs, currently used for the treatment of osteoporosis, has potential benefits for vascular lesions also.
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PMID:[Clinical significance of close relationship between bone and vasculature]. 1577 31

Cardiologists long assumed that aortic valve sclerosis/stenosis is a wear-and-tear, degenerative process; recent studies suggested that lipoproteins can play a key role in the development of both sclerosis/stenosis in the aortic valve. Thus, sclerosis/stenosis cannot be considered as a simple degenerative process, but on the contrary it is complex and involves multiple pathogenetic mechanisms. Experimental, clinical and epidemiological data support the link between aortic valvulopathy and atherosclerosis: both are caused by inflammation, lipid deposition, and accumulation of extracellular bone matrix protein. In non-randomized clinical studies, hydroxy-methylglutaryl-coenzyme A reductase inhibitors minimized the progression of aortic valvulopathy. The major pharmacological effect, supposed to underlie the inferred (but still unproven) impact of statins on aortic sclerosis/stenosis is plasma cholesterol reduction. Lately, retrospective clinical studies supported this hypothesis and suggested a key role for statins in delaying the progression of aortic valvulopathy. However, the potential favorable effects of statins require confirmation. Prospective trials in Canada and Europe are now ongoing (ASTRONOMER--Aortic Stenosis Progression Observation Measuring Effects of Rosuvastatin; SEAS--Simvastatin and the Ezetimibe in Aortic Stenosis) and will address the use of cholesterol-lowering drugs in reducing the progression of aortic valve stenosis and in improving clinical outcomes.
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PMID:[Can we prevent the progression of aortic valve sclerosis and stenosis? The need for a prospective, randomized trial]. 1608 23

Animal models of vein graft disease are used as preliminary tools to study and understand the pathogenesis of the disease in humans and improve its diagnosis, prevention and therapy. Several animal models that manifest lesions resembling neointimal hyperplasia of human vein grafts have been developed, but there are limitations in studying the mechanism of this disease in these models. We previously established a mouse model of vein bypass graft atherosclerosis that allows us to take advantage of transgenic and knockout techniques. Using this model, we studied the pathogenesis of vein graft atherosclerosis. The lesion in the grafts was characterised by mononuclear cell infiltration followed by smooth muscle cell (SMC) proliferation and matrix protein deposition, which is similar to the human lesion. Studies of the molecular mechanism of pathogenesis in this model revealed that physical force initiated signal pathways, particularly mitogen-activated protein kinases (MAPK), leading to vascular cell death and an inflammatory response, followed by SMC proliferation, which contributed to the development of arteriosclerosis. Suramin inhibited SMC migration and proliferation in vivo and in vitro by blocking platelet-derived growth factor (PDGF)-initiated PDGF receptor activation and MAPK-AP-1 signalling, and was also effective in inhibition of neointima hyperplasia in mouse vein bypass grafts. This new mouse model of vein bypass graft atherosclerosis affords us with a valuable new approach to attain further understanding of the mechanism of vein graft disease with the use of transgenic mice, and in evaluating the effects of drugs and gene therapy on vascular diseases.
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PMID:New mouse model of vein bypass graft atherosclerosis. 1635 95

Ezetimibe (EZE), an inhibitor of cholesterol absorption, reduces atherosclerosis in apolipoprotein E-deficient (apoE(-/-)) mice. The matrix protein ED-B fibronectin (ED-B) is upregulated in atherosclerotic lesions. Using a novel conjugate for near-infrared fluorescence (NIRF) imaging targeting ED-B, we studied the effect of EZE on plaque lesion formation in apoE(-/-) mice. ApoE(-/-) mice received EZE (5 mug/kg/d) or chow up to the age of 4, 6, and 8 months. NIRF imaging of aortic lesions was performed 24 hours after intravenous application ex vivo and in vivo. Plaque lesion formation was analyzed by histology and immunohistochemistry. Aortic lesion formation detected by Sudan staining and NIRF imaging was significantly reduced at 6 and 8 months (p < .001). Plaque areas determined by NIRF imaging significantly correlated with Sudan staining (p < .001). EZE treatment resulted in a significant reduction in plaque macrophage and ED-B immunoreactivity (both p < .05) in brachiocephalic lesions. There was a significant reduction in plaque size in brachiocephalic arteries in 8-month-old mice treated with EZE compared with mice during short-term treatment (p < .05), indicating EZE plaque regression. Targeted NIRF imaging showed a correlation to histologic lesion extension during therapeutical intervention in experimental atherosclerosis.
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PMID:Monitoring therapeutical intervention with ezetimibe using targeted near-infrared fluorescence imaging in experimental atherosclerosis. 1870 89

Chlamydia pneumoniae infection has been associated with chronic obstructive airway disease (COPD), asthma, and atherosclerosis. Inflammation and airway remodeling in asthma and COPD result in subepithelial fibrosis that is characterized by the deposition of interstitial collagens and fibronectin. The progression of atherosclerosis is also accompanied by an increased production of interstitial collagens in the intima. As shown by reverse transcription-PCR and immunoblotting, infection of human fibroblasts and smooth muscle cells by C. pneumoniae TW-183 downregulated the expression of type I and III collagen and fibronectin, whereas the level of type IV collagen remained unchanged. Conditioned medium from infected fibroblasts as well as epithelial WISH cells also reduced the expression of interstitial collagens and fibronectin in uninfected cells. In experiments using blocking antibodies, beta interferon was found to contribute to the inhibitory effects of conditioned medium collected from infected fibroblasts. In contrast, downregulation of matrix protein expression by conditioned medium from epithelial cells was caused by interleukin-1alpha, which was not secreted from fibroblasts following chlamydial infection. C. pneumoniae-mediated inhibition of collagen and fibronectin expression was diminished following transfection of fibroblasts with specific small interfering RNA targeting the transcription factor CCAAT/enhancer-binding protein beta. The downregulation of interstitial collagens and fibronectin by the Chlamydia-induced host cell cytokine response may modulate tissue remodeling processes in airway diseases. In atherosclerosis the inhibition of collagen synthesis by C. pneumoniae infection may promote plaque vulnerability, thereby increasing the risk of plaque rupture.
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PMID:Host cell cytokines induced by Chlamydia pneumoniae decrease the expression of interstitial collagens and fibronectin in fibroblasts. 1904 5


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