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)

The extent of lipoperoxidation in experimental rabbits with atherosclerosis was determined dynamically during the experimental period of 65 days. Lipoperoxide (LPO) levels and selenium-dependent glutathions peroxidase (SeGSHPx) activities in liver, aorta, heart muscle, plasma erythrocyte (RBC) and platelet were examined on the 65th day. The results showed that the potential anti-lipoperoxidation in the atherosclerotic rabbits was decreased significantly, and the tissues were suffered from lipoperoxidative damage. It seems that there is a close relationship between lipoperoxidative damage and the development of atherosclerosis.
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PMID:Lipoperoxidative damage in experimental rabbits with atherosclerosis. 850 93

Reactive aldehydes generated during lipid peroxidation have been implicated in the pathogenesis of atherosclerosis as well as other inflammatory diseases. A potential catalyst for such reactions is myeloperoxidase, a hemeprotein secreted by activated phagocytes. We now report that activated neutrophils utilize the myeloperoxidase-H2O2-chloride system to convert L-tyrosine to p-hydroxyphenylacetaldehyde. Production of p-hydroxyphenylacetaldehyde was nearly quantitative at physiological concentrations of L-tyrosine and chloride. Aldehyde generation required myeloperoxidase, H2O2, L-tyrosine, and chloride ion; it was inhibited by the H2O2 scavenger catalase and by the heme poisons azide and cyanide. Phorbol ester- and calcium ionophore-stimulated human neutrophils likewise generated p-hydroxyphenylacetaldehyde from L-tyrosine by a pathway inhibited by azide, cyanide, and catalase. Aldehyde production accounted for 75% of H2O2 generated by optimally stimulated neutrophils at plasma concentrations of L-tyrosine and chloride. Collectively, these results indicate that activated phagocytes, under physiological conditions, utilize myeloperoxidase to execute the chloride-dependent conversion of L-tyrosine to the lipid-soluble aldehyde, p-hydroxyphenylacetaldehyde, in near quantitative yield. Moreover, like aldehydes derived from lipid peroxidation, amino acid-derived aldehydes may exert potent biological effects in vascular lesions and other sites of inflammation.
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PMID:p-Hydroxyphenylacetaldehyde is the major product of L-tyrosine oxidation by activated human phagocytes. A chloride-dependent mechanism for the conversion of free amino acids into reactive aldehydes by myeloperoxidase. 856 31

Our previous light microscopic studies demonstrated the correlation of focal arterial uptake of macromolecules with the mitosis or death of endothelial cells (ECs). To investigate horseradish peroxidase (HRP) permeability associated with the clefts surrounding these ECs at the ultrastructural level, experiments were performed on rat thoracic aortae by using transmission electron microscopy. In en face preparations of aortic specimens, light microscopy was used first to detect mitotic ECs by hematoxylin staining prior to electron microscopy. Dying (or dead) ECs containing cytoplasmic immunoglobulin G (IgG) were identified by an indirect immunogold technique, HRP was found to permeate from the vessel lumen through the widened junctions around the mitotic and dying cells, as well as some non-widened junctions and the plasma membrane of dying cells. The transiently open junctions during cell turnover lead to an increased transendothelial permeability to macromolecules. In addition to its enhanced passage through the leaky junctions around EC turnover and through the damaged membrane of dying cells. HRP can also traverse many normal intercellular clefts into the subendothelial space of the aorta. These observations show that normal intercellular junctions can provide a significant pathway for the transport of macromolecules with the size of HRP, and that HRP transport is enhanced in transiently open junctions surrounding ECs undergoing turnover. The widened junctions around the mitotic and dying cells provide the pathway for macromolecules larger than HRP, e.g., the low density lipoproteins (LDLs).
Atherosclerosis 1995 Nov
PMID:Ultrastructural studies on macromolecular permeability in relation to endothelial cell turnover. 857 35

Oxidative modification of human low-density lipoprotein (LDL) is thought to play a major role in the development of atherosclerosis. Free hemin, hemoglobin, myoglobin, and horseradish peroxidase (HRP) were reported in different studies as promoters of LDL lipid oxidation. Based on our previous finding that hemin induced oxidative crosslinking of the LDL protein, apolipoprotein B (apo B) (Y. I. Miller and N. Shaklai (1994) Biochem. Mol. Biol. Int. 34, 1121-1129), we compared the ability of free hemin and the above hemoproteins to induce peroxidation modification of apo B using SDS-PAGE. The levels of the final products of lipid peroxidation were determined as thiobarbituric acid-reactive substances. Hemoglobin and myoglobin were found to be as active as free hemin and all these were much more active than the classic peroxidase HRP. Moreover, the products of oxidized apo B differed: hemoglobin, myoglobin, and hemin induced mostly covalent aggregates, while HRP caused fragmentation of apo B. Hemoglobin reactivity was expressed at low H2O2 concentrations even in the absence of molecular oxygen. Desferal, along with other antioxidants, inhibited the hemoglobin-induced LDL oxidation independently of its iron-chelating property. The high peroxidative reactivity of hemoglobin is explained by its ability (unlike HRP) to transfer the oxidative equivalents from the heme active site, through the globin, to LDL. The apo B radicals thus formed are terminated, yielding intermolecular crosslinked protein. It is suggested that small amounts of the highly reactive hemoglobin in plasma, suffice to trigger LDL protein oxidation (along with its lipid oxidation), thereby inflict the atherosclerosis precondition.
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PMID:Hemoglobin induced apolipoprotein B crosslinking in low-density lipoprotein peroxidation. 861 Oct 31

Myeloperoxidase, a heme protein secreted by activated phagocytes, may be a catalyst for lipoprotein oxidation in vivo. Active myeloperoxidase is a component of human atherosclerotic lesions, and atherosclerotic tissue exhibits selective enrichment of protein dityrosine cross-links, a well characterized product of myeloperoxidase. Tyrosylation of lipoproteins with peroxidase-generated tyrosyl radical generates multiple protein-bound tyrosine oxidation products in addition to dityrosine. The structural characterization of these products would thus serve as an important step in determining the role of myeloperoxidase in lipoprotein oxidation in the artery wall. We now report the identification and characterization of four distinct tyrosyl radical addition products generated by human phagocytes. Activated neutrophils synthesized three major fluorescent products from -tyrosine; on reverse phase HPLC, each compound coeluted with fluorescent oxidation products formed by myeloperoxidase. We purified the oxidation products to apparent homogeneity by cation and anion exchange chromatographies and identified the compounds as dityrosine (3,3'-dityrosine), trityrosine (3,3',5',3"-trityrosine) and pulcherosine (5-[4"-(2-carboxy-2-aminoethyl)phenoxy]3, 3'-dityrosine) by high resolution NMR spectroscopy and mass spectrometry. Additionally, we have found that dityrosine is a precursor to trityrosine, but not pulcherosine. In a search for a precursor to pulcherosine, we identified isodityrosine (3-[4'-(2-carboxy-2-aminoethyl)phenoxy]tyrosine), a non-fluorescent product of L-tyrosine oxidation by human phagocytes. Our results represent the first identification of this family of tyrosyl radical addition products in a mammalian system. Moreover, these compounds may serve as markers specific for tyrosyl radical-mediated oxidative damage in atherosclerosis and other inflammatory conditions.
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PMID:Human phagocytes employ the myeloperoxidase-hydrogen peroxide system to synthesize dityrosine, trityrosine, pulcherosine, and isodityrosine by a tyrosyl radical-dependent pathway. 870 10

This article reviews our current understanding of the mechanisms of low-density lipoprotein (LDL) oxidation and the potential role of oxidized lipoproteins in atherosclerosis. Studies in hypercholesterolemic animal models indicate that oxidation of LDL is likely to play an important role in atherogenesis. Epidemiological investigations further suggest that the dietary intake of antioxidants is inversely associated with the risk of vascular disease, suggesting that oxidized LDL may be important in human atherosclerosis. By activating inflammatory events, oxidized lipoproteins may contribute to all stages of the atherosclerotic process. Lipoprotein oxidation is promoted by several different systems in vitro, including free and protein-bound metal ions, thiols, reactive oxygen intermediates, lipoxygenase, peroxynitrite, and myeloperoxidase. Intracellular proteins that bind iron or regulate iron metabolism might also play an important role. The physiologically relevant pathways have yet to be identified, however. We assess recent findings on the effects of antioxidants in vivo and suggest potential strategies for inhibiting oxidation in the vessel wall.
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PMID:The role of oxidized lipoproteins in atherogenesis. 872 15

Tissue destruction in atherosclerosis is partly due to uncontrolled protease and oxygen radical release. In this study we investigated the release of elastase and myeloperoxidase, as well as the production of reactive oxygen species by polymorphonuclear leukocytes (PMNLs) obtained from patients with obliterative atherosclerotic of the lower legs. In addition we measured the plasma concentration of xanthine oxidase. PMNLs of atherosclerotic patients have a greater ability to increase elastase and myeloperoxidase release after their stimulation with formyl-methionin-leucyl-phenylalanin (fMLP) and calcium ionophore, A23187, independently of their age, than PMNLs of healthy middle-aged subjects. Similarly to healthy elderly subjects there was an increased superoxide anion (O2-) production under basal condition in both atherosclerotic patient age-groups. The activation of PMNLs with fMLP and A23187 enhanced O2- formation both in healthy subjects and in patients with atherosclerotic disease of the lower legs, however the increase was significantly less in the latter group. No biochemical parameters showed significant correlation with patient's risk factors, however myeloperoxidase production was significantly higher in less severe stage of the disease (P < 0.05). We found that patients with atherosclerotic disease of the lower legs have higher plasma xanthine oxidase level than control subjects. This study indicates an other piece of evidence suggesting the activation and involvement of neutrophils in the pathogenesis of atherosclerosis of the lower legs. The similar tendencies in the reactivity of neutrophils during aging and in atherosclerosis suggest that atherosclerosis may be an early aging process.
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PMID:Neutrophils obtained from obliterative atherosclerotic patients exhibit enhanced resting respiratory burst and increased degranulation in response to various stimuli. 878 40

Oxidation of low density lipoprotein (LDL) may be of critical importance in triggering the pathological events of atherosclerosis. Myeloperoxidase, a heme protein secreted by phagocytes, is a potent catalyst for LDL oxidation in vitro, and active enzyme is present in human atherosclerotic lesions. We have explored the possibility that reactive intermediates generated by myeloperoxidase target LDL cholesterol for oxidation. LDL exposed to the myeloperoxidase-H2O2-Cl- system at acidic pH yielded a family of chlorinated sterols. The products were identified by mass spectrometry as a novel dichlorinated sterol, cholesterol alpha-chlorohydrin (6beta-chlorocholestane-(3beta,5alpha)-diol), cholesterol beta-chlorohydrin (5alpha-chlorocholestane-(3beta, 6beta)-diol), and a structurally related cholesterol chlorohydrin. Oxidation of LDL cholesterol by myeloperoxidase required H2O2 and Cl-, suggesting that hypochlorous acid (HOCl) was an intermediate in the reaction. However, HOCl failed to generate chlorinated sterols under chloride-free conditions. Since HOCl is in equilibrium with molecular chlorine (Cl2) through a reaction which requires Cl- and H+, this raised the possibility that Cl2 was the actual chlorinating intermediate. Consonant with this hypothesis, HOCl oxidized LDL cholesterol in the presence of Cl- and at acidic pH. Moreover, in the absence of Cl- and at neutral pH, Cl2 generated the same family of chlorinated sterols as the myeloperoxidase-H2O2-Cl- system. Finally, direct addition of Cl2 to the double bond of cholesterol accounts for dichlorinated sterol formation by myeloperoxidase. Collectively, these results indicate that Cl2 derived from HOCl is the chlorinating intermediate in the oxidation of cholesterol by myeloperoxidase. Our observations suggest that Cl2 generation in acidic compartments may constitute one pathway for oxidation of LDL cholesterol in the artery wall.
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PMID:Molecular chlorine generated by the myeloperoxidase-hydrogen peroxide-chloride system of phagocytes converts low density lipoprotein cholesterol into a family of chlorinated sterols. 879 98

Cellular oxidation of protein and lipoproteins is believed to contribute to the pathology associated with both acute and chronic inflammatory processes. Enzymatic, myeloperoxidase and lipoxygenase, and non- enzymatic oxidation of low density lipoprotein, LDL, has been implicated in foam cell formation and the progression of atherosclerotic changes within the arterial wall. In the present study, the in vitro protective role of the selective estrogen receptor modulator, raloxifene, in these oxidant triggered processes has been investigated. Raloxifene, as with estrogen was observed to inhibit both copper mediated LDL oxidation as well as the cellular modification of LDL by murine peritoneal macrophages. Raloxifene was, however, a more potent inhibitor of LDL oxidation than 17 beta-estradiol. The inhibition of macrophage LDL modification by raloxifene was not due to a non-specific effect on all effector functions as phagocytosis of opsonized yeast was comparable with control macrophage cultures. In addition to the protective effects on LDL oxidation, raloxifene also inhibited tyrosyl radical formation catalyzed by myeloperoxidase. The inhibition of myeloperoxidase activity was observed for both the isolated enzyme and in phorbol ester stimulated murine peritoneal neutrophils. In contrast, raloxifene was a weaker inhibitor of horseradish peroxidase. These results demonstrate a potential protective role for raloxifene as an anti-oxidant in in vitro assays designed to evaluate oxidant mediated radical formation and tissue damage.
Atherosclerosis 1996 Sep 27
PMID:Inhibition of LDL oxidation and myeloperoxidase dependent tyrosyl radical formation by the selective estrogen receptor modulator raloxifene (LY139481 HCL). 887 35

Parameters of lipid metabolism (triacylglycerols TG, cholesterol CH, HDL-CH, LDL-CH, atherogenic index AI, profile of fatty acids) were measured in blood samples of 81 healthy lacto and lacto-ovo vegetarians (42 males, 39 females; age range 19-39 years). The average period of being on a vegetarian diet was 6.2 years. Low levels of TG, CH, LDL-CH, AI and HDL-CH values on the borderline between standard and reduced risk (1.4 mmol.l-1) can be considered as favourable from the atherosclerosis prevention aspect. Compared with non-vegetarians (n = 62), the levels of TG, CH, LDL-CH, and AI are significantly reduced in the vegetarian group. As opposed to non-vegetarians, vegetarians showed a higher total sum of polyunsaturated fatty acids, a significantly higher content of linoleic acid (C 18:2) and linolenic acid (C 18:3), unchanged content of oleic acid (C 18:1), stearic acid (C 18:0) and other polyunsaturated fatty acids. The process of lipoperoxidation (with polyunsaturated fatty acids as substrate) is involved in the etiology of cardiovascular and oncological diseases. Favourable values of prooxidative-antioxidative parameters demonstrated a reduced risk of lipoperoxidation in vegetarians, compared to non-vegetarians (significantly reduced content of conjugated dienes of fatty acids in plasma, significantly higher plasma levels of vitamin C, beta-carotene, vitamin E/cholesterol ratio--and indicator of LDL protection, vitamin E/triacylglycerols ratio--an indicator of fatty acid protection--, selenium and glutathione-peroxidase activity).
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PMID:Lipid and antioxidant blood levels in vegetarians. 897 40


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