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)

Hyperhomocysteinemia has been recognized as an independent risk factor for cerebral, coronary, and peripheral atherosclerosis. To examine the contribution of homocysteine (H[cys]) in the pathogenesis of vascular diseases, we sought to determine whether the H[cys] effect on vascular smooth muscle (VSMC) proliferation is mediated by a specific receptor/transporter or is due to an interaction with growth factors or cytokines. We show that H[cys] induced c-fos and c-myb and increased DNA synthesis and cell proliferation 12-fold in neural crest-derived VSMC (N-VSMC). The H[cys] effect on N-VSMC proliferation is inhibited by Mk-801, a noncompetitive antagonist of the N-methyl-D-aspartate (NMDA) receptor, a glutamate-gated calcium ion channel receptor, and CGS 19755, a competitive antagonist of NMDA-type glutamate receptor. H[cys] stimulates the synthesis of mass amounts of sn-1,2 diacylglycerol, and activates protein kinase C translocation from the nucleus and cytoplasm to cell membranes. Furthermore, protein kinase C inhibitors block the growth effect mediated by H[cys]. These findings indicate that H[cys]-mediated responses are coupled to diacylglycerol-dependent protein kinase C activation. Our results suggest that homocysteine activates a receptor/transporter-like factor in neural crest derived smooth muscle.
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PMID:Homocysteine signal cascade: production of phospholipids, activation of protein kinase C, and the induction of c-fos and c-myb in smooth muscle cells. 924 Sep 71

Homocysteine is a graded risk factor for the incidence of stroke and for the degree of carotid atherosclerosis. Homocysteine is also a graded risk factor for the incidence of myocardial infarction but we do not know its precise relations to the severity of atherosclerosis in coronary patients. Seventy five symptomatic coronary patients were recruited for the study. Fifty of these patients had coronary artery disease only and were compared in a case-control manner to 50 healthy controls matched for age and sex. The 25 other coronary patients had also symptoms in another atherosclerotic territory (cerebral, peripheral or both) and were also compared to 25 matched controls. Mean plasma homocysteine level was significantly higher in coronary patients than in controls (11.7 +/- 0.7 mumol l-1, n = 50 versus 9.9 +/- 0.5 mumol l-1, n = 50, p < 0.05). Homocysteine in patients with symptomatic atherosclerosis in two or three arterial sites was 15.7 +/- 1.5 mumol l-1 which differed significantly from matched controls and from patients with coronary artery disease only (p = 0.01). The extent of coronary atherosclerosis evaluated by an angiographic coronary score correlated weakly to plasma homocysteine levels (r = 0.25, p < 0.05). The patients with both hypertension and high levels of homocysteine (> 11.3 mumol l-1, median value) had more severe coronary atherosclerosis (coronary score of 16.3 +/- 2.3 versus 11.9 +/- 0.9, p < 0.05) and more diffuse atherosclerosis (number of atherosclerotic territories of 1.5 +/- 0.2 versus 1.2 +/- 0.7, p = 0.08) than the coronary patients without this association. There were no other high risk association when considering the other classical risk factors. Thus, the highest levels of homocysteine were present in patients with coronary disease and another symptomatic localisation of atherosclerosis. A small gradient in the extent of coronary atherosclerosis was found with increasing levels of homocysteine. The presence of both hypertension and hyperhomocysteinemia was associated with more severe coronary atherosclerosis.
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PMID:Plasma homocysteine and the extent of atherosclerosis in patients with coronary artery disease. 926 41

Hyperhomocysteinemia is an independent risk factor for atherosclerosis and cardiovascular disease. The cause of hyperhomocysteinemia is either an inborn metabolic defect or acquired. Main causes are either a defective homocysteine remethylation (thermolability of the enzyme 5,10-methylenetetrahydrofolate reductase) or nutritional deficiencies of B vitamins especially folic acid. The relative risk for myocardial infarction has been found of 3,1 in case of hyperhomocysteinemia. It is considered that a 5 microM/l homocysteine increment elevates vascular risk by as much as cholesterol increases of 20 mg/dl. B vitamins supplements are potentially useful.
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PMID:[Hyperhomocysteinemia: risk factor for premature atheromatosis]. 927 96

Congenital homocysteinuria is a rare inherited metabolic disorder with early onset atherosclerosis and arterial and venous trombosis. Moderate hyperhomocysteinemia is more frequently encountered and is recognized as an independent cardiovascular risk factor. Several case-control studies demonstrate an association between venous thromboembolism and moderate hyperhomocysteinemia. A patient with moderate hyperhomocysteinemia has a 2-3 relative risk of developing an episode of venous thromboembolism. The occurrence of mild hyperhomocysteinemia in heterozygotes for the mutation of Leiden factor V involves a 10-fold increase in the risk of venous thromboembolism. The biochemical mechanism by which homocysteine may promote thrombosis is not fully recognized. Homocysteine inhibits the expression of thrombomodulin, the thrombin cofactor responsible for protein C activation, and inhibits antithrombin-III binding. Treatment with folic acid reduces the plasma level of homocysteinemia, but no study has demonstrated its efficacy in reducing the incidence of venous thromboembolism or atherosclerosis. Hyperhomocysteinemia should be included in the screening of abnormalities of hemostasis and thrombosis in patients with idiopathic thromboembolism, and mild hyperhomocysteinemia may justify a trial of folic acid.
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PMID:[Homocysteine and venous thromboembolism]. 930 44

In the present study, we have investigated the increase of cell protein and the concentration of glutathione, cysteine and homocysteine in cell culture systems (HeLa cell line) after addition of low amounts (100-500 micromol/l) of homocysteine and/or copper. The thiols and cell protein were determined in cell cultures with daily additions of new medium with and without homocysteine and/or copper ions for 3 days. The present study shows that extracellularly added homocysteine (500 and 2000 micromol/l) resulted in signs of cell toxicity (decreased intracellular glutathione level and/or retarded cell growth). After the addition of copper ions (10, 50 or 100 micromol/l), complex changes in the concentrations of thiols in cell cultures occurred but cell growth was normal. After the addition of both homocysteine and copper ions, changes similar to those seen with the addition of copper ions and homocysteine alone were noted. However, synergistic features after addition of 500 micromol/l homocysteine and 10 or 50 micromol/l of copper ions were a significantly retarded cell growth and decreased concentration of cellular glutathione. In HeLa cell lines with initial low cell density and in an endothelial cell line (ECV 304), even the presence of 100 micromol/l of homocysteine and 10 micromol/l of copper ions inhibited cell growth and decreased the cellular level of glutathione. Whilst the level of homocysteine in our 3-day cell-culture experiments is higher than the mild hyperhomocysteinemia thought to be atherogenic in humans (20-30 micromol/l), it is conceivable that over a longer time course (several decades), this mild hyperhomocysteinemia could be sufficient to induce cellular effects similar to those found in the present study, eventually leading to atherosclerosis.
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PMID:The cell-damaging effects of low amounts of homocysteine and copper ions in human cell line cultures are caused by oxidative stress. 934 22

An increased plasma homocysteine level is an independent risk factor for vascular disease. However, the pathological mechanisms by which homocysteine promotes atherosclerosis are not yet clearly defined. Arterial smooth muscle cells cultured in the presence of homocysteine grew to a higher density and produced and accumulated collagen at levels significantly above control values. Homocysteine concentrations as low as 50 mumol/L significantly increased both cell density and collagen production. Cell density increased by as much as 43% in homocysteine-treated cultures. Homocysteine increased collagen production in a dose-dependent manner. Smooth muscle cells treated with homocysteine at concentrations observed in patients with hyperhomocysteinemia had collagen synthesis rates as high as 214% of control values. Likewise, collagen accumulation in the cell layer was nearly doubled in homocysteine-treated cultures. Addition of aquacobalamin to homocysteine-treated cultures controlled the increase in smooth muscle cell proliferation and collagen production. These results indicate a cellular mechanism for the atherogenicity of homocysteine and provide insight into a potential preventive treatment.
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PMID:Homocysteine as a risk factor for vascular disease. Enhanced collagen production and accumulation by smooth muscle cells. 935 74

The accumulating evidence for the role of homocysteine as a risk factor for atherosclerosis is persuasive. A high plasma homocysteine concentration induces pathologic changes in the arterial wall and thus is strongly associated with an increased risk of atherosclerosis, manifested as cardiovascular, cerebrovascular and peripheral vascular events. Studies are being conducted to determine whether lowering homocysteine levels prevents occlusive events. At present, testing for elevated homocysteine concentrations should be considered in patients with premature atherosclerosis or a strong family history of atherosclerosis, since hyperhomocysteinemia is a common risk factor in these patients. Treatment of hyperhomocysteinemia is straightforward and associated with minimal risk. This disorder is usually correctable with vitamin supplements containing folic acid.
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PMID:Homocysteine: a new risk factor for atherosclerosis. 935 24

Homocysteine (Hcy) may represent a metabolic link in the pathogenesis of atherosclerotic vascular diseases and old-age dementias. Hyperhomocysteinemia is an independent risk factor for coronary artery disease and peripheral vascular disease, and is also associated with cerebrovascular disease; specifically, the risk of extracranial carotid atherosclerosis significantly increases in relation to Hcy levels. Hcy is a reliable marker of vitamin B12 deficiency, a common condition in the elderly which is known to induce neurological deficits including cognitive impairment; a high prevalence of folate deficiency has been reported in psychogeriatric patients suffering from depression and dementia. Both these vitamins occupy a key position in the remethylation and synthesis of S-adenosylmethionine (SAMe), a major methyl donor in CNS; therefore, deficiencies in either of these vitamins lead to a decrease in SAMe and increase in Hcy, which can be critical in the aging brain. Another pathogenetic mechanism linking high Hcy levels to reduced cognitive performances in the elderly might be represented by excitotoxicity, since hyperhomocysteinemia may lead to an excessive production of homocysteic acid and cysteine sulphinic acid, which act as endogenous agonists of NMDA receptors. Considering the reasonably high prevalence in the general population of a genetic predisposition to a thermolabile form of the enzyme 5,10-methylenetetrahydrofolate reductase (MTHFR), hyperhomocysteinemia can be seen as the result of multiple genetic and environmental factors leading to vascular and/or neurodegenerative disorders where age-related involutive phenomena represent a common pathogenetic ground. Systematic studies in different psychogeriatric conditions monitoring Hcy levels and clinical features before and after vitamin supplementation are therefore highly recommended.
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PMID:Role of homocysteine in age-related vascular and non-vascular diseases. 935 35

A moderate elevation of plasma homocysteine is a risk factor for atherosclerosis and arterial and veinous thrombosis. However, the mechanisms leading to vascular disorders are poorly understood because studies that have investigated the potential atherothrombogenicity of hyperhomocysteinemia in vivo are scarce. Using a rat model, we were the first to show that dietary folic acid deficiency, a major cause of basal hyperhomocysteinemia, is associated with enhanced macrophage-derived tissue factor and platelet activities. We proposed that an homocysteine-induced oxidative stress may account for this hypercoagulable state. To determine the true thrombogenicity of moderate hyperhomocysteinemia and better understand its etiology, we have carried out an acute methionine load in control and folate-deficient animals. When rats were fed the control diet, a transient fourfold increase in plasma homocysteine levels was observed 2 h after the methionine administration. As with prolonged dietary folic acid deficiency, this methionine load potentiated the platelet aggregation in response to thrombin and ADP as well as the thrombin-induced thromboxane synthesis. It also stimulated the basal and lipopolysaccharide-induced tissue factor activity of peritoneal macrophages. These prothrombotic effects were associated with an increased lipid peroxidation characterized by an elevation of plasma conjugated dienes, lipid hydroperoxides, and thiobarbituric acid-reactive substances. When rats were fed a folic acid-deficient diet, the methionine load did not cause any further increase in plasma homocysteine concentration, platelet activation, macrophage tissue factor-dependent coagulation, or lipoperoxidation. Altogether, our data showed that the prethrombotic state due to both the altered remethylation and transsulfuration pathways resulted from the moderate elevation of circulating homocysteine. We conclude that moderate hyperhomocysteinemia plays a role in the development of a thrombogenic state that might be mediated by the occurrence of oxidative stress.
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PMID:Acute methionine load-induced hyperhomocysteinemia enhances platelet aggregation, thromboxane biosynthesis, and macrophage-derived tissue factor activity in rats. 936 51

Hyperhomocysteinemia has been shown to constitute an independent risk factor for premature occlusive arterial disease. Moderate hyperhomocysteinemia is present in chronic uremic patients, who often develop premature atherosclerosis, but no direct evidence of an association between the occurrence of atherosclerotic cardiovascular accidents (CVAs) and hyperhomocysteinemia has yet been reported in such patients. We serially determined total plasma homocysteine (Hcy) levels in a cohort of 93 consecutive chronic renal failure, undialyzed patients (57 males, 36 females) with creatinine clearance (Ccr) < 50 ml/min.1.73 m2 and age > or = 50 years at start of follow-up, together with serial assessment of Ccr and blood lipid parameters. From January 1989 to December 1995, 24 patients (group 1) experienced myocardial infarction (18 cases, 13 males) or cerebral infarction (6 cases, 3 males) while the remaining 69 (group 2) remained free of CVAs. Patients in groups 1 and 2 did not differ with respect to age (66 +/- 1.8 vs. 65 +/- 1.1 years, mean +/- Se) or serum creatinine (227 +/- 24 vs. 251 +/- 36 mumol/l) at onset of a CVA (group 1) or at the end of follow-up (group 2). The mean Hcy level was significantly higher in group 1 (20.7 +/- 1.6 vs. 12.8 +/- 0.5 mumol/l, p < 0.0001), as was the proportion of patients with Hcy in excess of 14 mumol/l, the upper limit in healthy controls (83 vs. 30%, p < 0.0001). Logistic regression analysis identified Hcy as an independent risk factor for CVA, with an odds ratio of 11.4 (95% confidence interval 3.5-37.7), which remained significant after adjustment on other variables. We conclude that an elevated Hcy level is associated with a risk of occlusive arterial accidents in patients with chronic renal failure and that hyperhomocysteinemia contributes to the accelerated atherosclerosis complicating chronic uremia.
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PMID:Hyperhomocysteinemia is associated with atherosclerotic occlusive arterial accidents in predialysis chronic renal failure patients. 938 10


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