UMLS:C0004153 - FACTA Search

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Query: UMLS:C0004153 (atherosclerosis)
77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The B apolipoproteins, apo-B48 and apo-B100, are key proteins in mammalian lipoprotein metabolism and are components of all classes of lipoproteins considered to be atherogenic. Our laboratory has generated an array of genetically modified mice for studying apo-B biology. Using gene targeting in mouse embryonic stem cells, we have generated apo-B-deficient mice. Heterozygotes had low plasma levels of apo-B and cholesterol; homozygotes died early in embryonic development, most likely because the absence of lipoprotein secretion by the yolk sac interfered with the delivery of lipid nutrients to the developing embryo. We have also generated human apo-B transgenic mice with an 80-kb genomic DNA fragment spanning the entire human apo-B gene; those mice had markedly increased plasma levels of low density lipoprotein cholesterol and exhibited increased susceptibility to atherosclerosis. The human apo-B transgenic mice have also yielded insights regarding the regulation of apo-B expression in different tissues. Although the 80-kb transgene contained nearly 20 kb of 5' and 3' flanking sequences and was expressed at high levels in the liver, no transgene expression was detectable in the intestine. Subsequent transgenic mouse studies have demonstrated that the expression of the apo-B gene in the intestine is controlled by DNA sequences that are very distant from the structural gene. Transgenic mice have also proved useful for studying apo-B structure/function relationships. By expressing mutant forms of human apo B in transgenic mice, we have examined the structural features of the apo-B molecule that are required for lipoprotein (a) formation. We have demonstrated that the carboxyl terminal cystine residue of apo-B100, cysteine-4326, is required for apo-B100's disulfide linkage with apo(a) to form lipoprotein (a). Finally, we have used gene targeting techniques to generate mice that synthesize exclusively apo-B48 (apo B48-only mice) and mice that synthesize exclusively apo-B100 (apo-B100 only mice): These mice have helped to clarify the unique metabolic roles of the two apo-B proteins.
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PMID:Using genetically modified mice to study apolipoprotein B. 922 57

Apoptosis is a mode of cell death in which intrinsic cellular mechanisms participate in the demise of the cell. The modulation of endothelial apoptosis may play a role in atherosclerosis, angiogenesis, vascular remodeling and other pathophysiological states. Control of cell death is mediated by the state of activation of a death pathway as well as by the levels of anti apoptotic proteins. The final common pathway of many, if not all, triggers of apoptosis involves activation of cysteine proteases. The Bcl 2 family, in contrast, appears to play a major role in protection against apoptosis. The role of these mechanisms in modulating endothelial cell apoptosis under various conditions is discussed.
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PMID:Modulation of endothelial cell apoptosis: mechanisms and pathophysiological roles. 922 58

Cigarette smoking is associated with an increased incidence of premature atherosclerosis. Minimal information is available at the molecular level concerning the mechanism of action of cigarette smoke. Recent work has shown that paraoxonase (PON) protects low density lipoprotein against oxidation by Cu2+. The goal of the present study was to investigate the effect of cigarette smoke extract (CSE) on human plasma paraoxonase activity. The activity of paraoxonase was inhibited by the CSE in a dose- and time-dependent manner. The inhibition of PON activity by the CSE was reversed by the addition of glutathione or N-acetyl cysteine. Furthermore, we tested to see whether sulfhydryl compounds prevented the inhibition of PON activity caused by CSE. Sulfhydryl compounds prevented the inhibition of PON activity caused by CSE. But any amino compounds, such as N-acetyl lysine, N-acetyl arginine and aminoguanidine, failed to protect PON activity, indicating a specificity with regard to the ability of free thiols to buffer the deleterious components of CSE which inhibited PON activity. The observed inhibition of PON activity by CSE may account for the increased incidence of cardiovascular disease known to be present in smokers through the oxidative process of low density lipoprotein and its subsequent uptake by macrophage.
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PMID:Cigarette smoke extract inhibits plasma paraoxonase activity by modification of the enzyme's free thiols. 924 Apr 27

Hyperhomocyst(e)inemia, characterized by accelerated atherosclerosis, is believed to induce endothelial cell injury and promote atherothrombosis by supporting the generation of hydrogen peroxide. Earlier observations in our laboratory demonstrated that in vitro nitrosation of homocyst(e)ine (HCY) prevents the generation of hydrogen peroxide. We, therefore, hypothesized that stimulating the production of nitric oxide (NO) by endothelial cells would detoxify HCY by forming the corresponding S-nitrosothiol, S-nitroso-homocysteine. In an attempt to prove this hypothesis, media containing 1 mM L-arginine, 1 microM bradykinin, a known NO agonist, and one of the biologically relevant thiols (HCY, cysteine, or glutathione) at concentrations of 0, 0.05, 0.5 and 5.0 mM were incubated with bovine aortic endothelial cells (BAEC) for 0.5, 1 and 4 h. S-nitrosothiol (RSNO) concentrations were measured by photolysis-chemiluminescence. Nitric oxide synthase (eNOS or isoform 3) activity and Nos 3 steady-state mRNA levels were determined by the conversion of [3H]L-arginine to [3H]L-citrulline and Northern analysis, respectively. Results demonstrate that increasing concentrations of HCY, and not cysteine or glutathione, in the presence of bradykinin at 0.5, 1, and 4 h led to significant (P < 0.05 by ANOVA) time- and dose-dependent increases in RSNO produced by BAEC. Cells exposed to 1 microM calcium ionophore A23187 in the presence of 5.0 mM HCY also produced a time-dependent increase in RSNO compared to control (P < 0.05 by ANOVA). In an attempt to determine if de novo synthesis was occurring, BAEC were treated with bradykinin following a 4 h pretreatment with HCY. Pretreatment with HCY followed by stimulation also led to a time- and dose-dependent increase in RSNO production (P < 0.05 by ANOVA). Using high performance liquid chromatography with electrochemical detection, S-nitroso-homocysteine was identified following treatment of BAEC with HCY and bradykinin. The increase in RSNO production in the presence of bradykinin and HCY at 4 h occurred concomitantly with a 78% increase in eNOS activity and a 58% increase in steady-state Nos 3 mRNA, with no change in Nos 3 mRNA half-life, compared to control. A partial explanation for HCY's unique ability to support an increase in NO production was demonstrated by showing that the t1/2 of HCY in media was greater than that of cysteine or glutathione. These data show that, in the presence of an NO agonist, HCY increases RSNO production in a time- and dose-dependent fashion that is reflected by an increase in eNOS activity and Nos 3 transcription. These results suggest that stimulation of endogenous NO, or provision of an exogenous NO donor, may ameliorate endothelial cell injury and thereby decrease the atherothrombotic risk of hyperhomocyst(e)inemic states.
Atherosclerosis 1997 Jul 25
PMID:Stimulation of endothelial nitric oxide production by homocyst(e)ine. 924 63

Intimal thickening in arteries is considered as a site of predilection for atherosclerosis. We investigated whether oral application of the nitric oxide (NO) donors SPM-5185 (N-nitratopivaloyl-S-(N'-acetylalanyl)-cysteine ethylester, 10 mg/kg body weight/b.i.d.) and molsidomine (pro-drug of 3-morpholino-sydnonimine (SIN-1), 10 mg/kg body weight/day) can retard intimal thickening and changes in vascular reactivity induced by a silicone collar positioned around the carotid artery of rabbits. Intimal thickening was significantly inhibited by SPM-5185 (cross-sectional area 18 +/- 6 vs. 44 +/- 10 x 10(-3) mm2; P < 0.05), but not by molsidomine (28 +/- 6 vs. 35 +/- 9 x 10(-3) mm2), which is a donor of both NO and superoxide anions. In organ chamber studies collaring was associated with a decreased sensitivity to acetylcholine (ACh). SPM-5185 evoked a tendency towards normalization of the pD2 of ACh in collared arteries. We also investigated whether chronic nitric oxide (NO) treatment affected vascular reactivity and fatty streak development in the rabbit aorta. During 16 weeks rabbits received 150 g/day of a standard diet, or diets with 0.3% cholesterol, with 0.02% molsidomine (10 mg/kg body weight/day) or with the combination. The NO donor enhanced the area of fatty streaks, without affecting hypercholesterolemia. Moreover, it desensitized the smooth muscle cells of the rabbit aorta to vasodilators acting via the cytoplasmic guanylate cyclase and suppressed the capacity of the endothelial cells to release NO in response to muscarinic receptor stimulation. This suggested that chronic exposure to large quantities of NO caused a negative feedback, with selective decreases of both the endothelial capacity to generate NO and the responsiveness to vasodilators operating via cyclic GMP. In conclusion, we demonstrated that exogenous NO can decrease intimal hyperplasia in vivo. However, prolonged in vivo treatment with a donor of NO enhanced atherosclerosis in hypercholesterolemic rabbits.
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PMID:The effect of chronic treatment with NO donors during intimal thickening and fatty streak formation. 926 3

Connective tissue growth factor (CTGF) is a novel cysteine-rich, secreted peptide, which is implicated in human atherosclerosis and fibrotic disorders such as systemic scleroderma. CTGF is a member of the peptide family that includes serum-induced immediate early gene products, a v-src-induced peptide, and a putative proto-oncogene. The CTGF gene family is a modular protein and is conserved throughout evolution. CTGF mRNA has been found in the human, mouse, chicken, frog, and fly. The functions of the CTGF gene family include embryogenesis, wound healing, and regulation of extracellular matrix production. Human CTGF is undetectable in normal blood vessels but overexpressed in atherosclerotic lesions, suggesting an important role in atherogenesis.
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PMID:Connective tissue growth factor. Friend or foe? 930 24

1. Homocysteine is an independent risk factor for cardiovascular disease. The mechanisms by which elevated plasma concentrations of homocysteine are related to the pathogenesis of atherosclerosis are not fully understood. Therefore, we examined the effect of homocysteine on cell replication of rat cultured vascular smooth muscle cells (VSMCs) at concentrations similar to those observed in clinical studies. 2. The incorporation of [3H]-thymidine was used as a marker of mitosis. Homocysteine (250-500 microM) was a weak mitogen as compared to platelet-derived growth factor-BB (PDGF-BB, 1 nM) and serum (10%), but it potentiated the mitogenic effect of PDGF-BB four fold at 500 microM. This enhancement of mitogenesis was blunted by the addition of the scavenging enzyme catalase or the antioxidant N-acetyl-L-cysteine. 3. Furthermore, stimulation of VSMC with homocysteine (25-500 microM) decreased the glutathione peroxidase activity of the cells to 50% of control at 500 microM. Inversely, homocysteine enhanced the superoxide dismutase (SOD) activity to 137% of control at 500 microM, but it had no effect on the catalase activity. 4. Homocysteine decreased the activity of bovine purified liver cytosolic glutathione peroxidase in a time- and dose-dependent manner. The maximum decrease was 50%. 5. In summary, homocysteine has a weak mitogenic effect on VSMC, but it dramatically enhances the mitogenic response of PDGF-BB, presumably by disturbing the activity of antioxidant enzymes.
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PMID:Homocysteine as a modulator of platelet-derived growth factor action in vascular smooth muscle cells: a possible role for hydrogen peroxide. 931 35

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

Epidemiological studies have provided strong evidence that an elevated plasma homocysteine concentration is an important independent risk factor for cardiovascular disease. We have shown, in the rat, that the kidney is a major site for the removal and subsequent metabolism of plasma homocysteine [Bostom, Brosnan, Hall, Nadeau and Selhub (1995) Atherosclerosis 116, 59-62]. To characterize the role of the kidney in homocysteine metabolism further, we measured the disappearance of homocysteine in isolated renal cortical tubules of the rat. Renal tubules metabolized homocysteine primarily through the transulphuration pathway, producing cystathionine and cysteine (78% of homocysteine disappearance). Methionine production accounted for less than 2% of the disappearance of homocysteine. Cystathionine, and subsequently cysteine, production rates, as well as the rate of disappearance of homocysteine, were sensitive to the level of serine in the incubation medium, as increased serine concentrations permitted higher rates of cystathionine and cysteine production. On the basis of enrichment profiles of cystathionine beta-synthase and cystathionine gamma-lyase, in comparison with marker enzymes of known location, we concluded that cystathionine beta-synthase was enriched in the outer cortex, specifically in cells of the proximal convoluted tubule. Cystathionine gamma-lyase exhibited higher enrichment patterns in the inner cortex and outer medulla, with strong evidence of an enrichment in cells of the proximal straight tubule. These studies indicate that factors that influence the transulphuration of homocysteine may influence the renal clearance of this amino acid.
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PMID:Characterization of homocysteine metabolism in the rat kidney. 935 66

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

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