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 macrophage scavenger receptor CD36 plays an important role in the uptake of oxidized forms of low density lipoprotein (LDL) and contributes to lesion development in murine models of atherosclerosis. However, the structural basis of CD36 lipoprotein ligand recognition is unknown. We now identify a novel class of oxidized phospholipids that serve as high affinity ligands for CD36 and mediate recognition of oxidized forms of LDL by CD36 on macrophages. Small unilamellar vesicles of homogeneous phosphatidylcholine (PC) molecular species were oxidized by the myeloperoxidase (MPO)-H(2)O(2)-NO(2)(-) system, and products were separated by sequential LC/ESI/MS/MS. In parallel, fractions were tested for their ability to bind to CD36. Four major structurally related phospholipids with CD36 binding activity were identified from oxidized 1-palmitoyl-2-arachidonyl-PC, and four corresponding structural analogs with CD36 binding activity were identified from oxidized 1-palmitoyl-2-linoleoyl-PC. Each was then synthetically prepared, its structure confirmed by multinuclear NMR and high resolution mass spectrometry, and shown to possess identical CD36 binding activity and LC/ESI/MS/MS characteristics in both native and derivatized forms. Based upon the structures of the active compounds identified, and structure-function studies with a variety of synthetic analogs, we conclude that the structural characteristics required for high affinity binding of oxidized PC species to CD36 are a phospholipid with an sn-2 acyl group that incorporates a terminal gamma-hydroxy(or oxo)-alpha,beta-unsaturated carbonyl (oxPC(CD36)). LC/ESI/MS/MS studies demonstrate that oxPC(CD36) are formed during LDL oxidation by multiple distinct pathways. Formation of this novel class of oxidized PC species contributes to CD36-mediated recognition of LDL oxidized by MPO and other biologically relevant mechanisms. The present results offer structural insights into the molecular patterns recognized by the scavenger receptor CD36 and provide a platform for the development of potential therapeutic inhibitory agents.
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PMID:Identification of a novel family of oxidized phospholipids that serve as ligands for the macrophage scavenger receptor CD36. 1210 95

The macrophage scavenger receptor CD36 plays an important role in binding and uptake of oxidized forms of low-density lipoprotein (LDL), foam cell formation, and lesion development during atherosclerosis. The structural basis of CD36-lipoprotein ligand recognition is an area of intense interest. In a companion article we reported the characterization of a structurally conserved family of oxidized choline glycerophospholipids (oxPC(CD36)) that serve as novel high affinity ligands for cells stably transfected with CD36, mediating recognition of multiple oxidized forms of LDL (Podrez, E. A., Poliakov, E., Shen, Z., Zhang, R., Deng, Y., Sun, M., Finton, P., Shan, L., Gugiu, B., Fox, P. L., Hoff, H. F., Salomon, R. G., and Hazen, S. L. (July 8, 2002) J. Biol. Chem. 277, 10.1074/jbc.M203318200). Here we use macrophages from wild-type and CD36 null mice to demonstrate that CD36 is the major receptor on macrophages mediating recognition of oxPC(CD36) species when presented (+/- plasma) in pure form, within PC bilayers in small unilamellar vesicles, and within liposomes generated from lipid extracts of native LDL. We also show that oxPC(CD36) promote CD36-dependent recognition when present at only a few molecules per particle, resulting in macrophage binding, uptake, metabolism, cholesterol accumulation, and foam cell formation. Finally, using high performance liquid chromatography with on-line electrospray ionization tandem mass spectrometry (LC/ESI/MS/MS), we demonstrate that oxPC(CD36) are generated in vivo and are enriched in atherosclerotic lesions. Collectively, our data suggest that formation of this novel family of oxidized phospholipids participates in CD36-mediated recognition of oxidized lipoproteins and foam cell formation in vivo.
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PMID:A novel family of atherogenic oxidized phospholipids promotes macrophage foam cell formation via the scavenger receptor CD36 and is enriched in atherosclerotic lesions. 1214 96

Homocysteine (Hcy) is a by-product of methionine metabolism. An imbalance of Hcy in the body may lead to hyperhomocysteinemia, a condition with elevated Hcy concentration in blood that may be one of the risk factors responsible for the development of several vascular diseases (thromboembolism, atherosclerosis, stroke, vascular diseases and dementia). Radix Salvia miltiorrhiza (Danshen), a well-known Chinese medicinal herb that can activate and improve blood microcirculation, is noticeable for its beneficial effect in treating cardiovascular diseases. The present study is to demonstrate the protective effect of Danshen extract against the homocysteine-induced adverse effect on human umbilical vein endothelial cell (HUVEC). Homocysteine (5 mM) not only decreased the cell viability but also caused the disruption of capillary-like structure formation in vitro. The protective effect of Danshen aqueous extract and its active compounds on endothelial cell function were demonstrated through an in vitro tube formation assay, which mimics the new blood vessel formation. To identify the active components in the aqueous extract of Danshen, the content was characterized by instrumental analysis using high performance liquid chromatography with diode array detector (DAD) and electrospray tandem mass spectrometry (ESI-MS/MS). Interestingly, Danshen extract and its pure compounds showed different effectiveness in protecting HUVEC against Hcy-induced injury according to the following descending order: Danshen aqueous extract, 3-(3,4-dihydroxy-phenyl)-2-hydroxy-propionic acid (Danshensu), protocatechuic acid, catechin and protocatechualdehyde. We believed that such findings might provide evidence in understanding the beneficial effects of Danshen on the cardiovascular system.
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PMID:Protective effects of Danshensu from the aqueous extract of Salvia miltiorrhiza (Danshen) against homocysteine-induced endothelial dysfunction. 1548 95

Dioxins are a class of polyhalogenated aromatic hydrocarbons that induce a wide spectrum of toxic responses in experimental animals. In this study, 2,3,7,8-tetrachlorobenzo-p-dioxin (TCDD) was exposed to two SD rat groups; one group for short-term exposure at a single dose of 1, 10, 20 and 50 mug/kg body weight (group 1) and the other for long-term exposure at daily and-low dose of 0.01, 0.1, 1 and 2.5 microg/kg body weight (group 2) for a month. Two-dimensional electrophoresis (2-DE) was utilized to resolve the protein profile of rat liver exposed to TCDD at different doses. In the analysis of 2-DE of the group 1, two new-expressed spots and seven volume-increased spots were detected and identified by ESI-Q-TOF MS/MS; especially, proteasome subunit beta type 3 was increased in all doses. In addition, in the group 2, six volume-increased spots were screened; particularly, histidine triad nucleotide binding protein was increased in both 0.1 microg/kg dose and 1 microg/kg dose. The identified proteins were confirmed using Western blot. Among the identified proteins, apolipoprotein A-IV may protect lipid peroxidation and atherosclerosis induced by TCDD exposure and the expression level of phosphoglycerate mutase increases due to hyperthyroidism induced by TCDD exposure.
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PMID:Proteomic characterization of rat liver exposed to 2,3,7,8-tetrachlorobenzo-p-dioxin. 1582 8

Carnosine (beta-alanyl-L-histidine) and related peptides such as homocarnosine (gamma-amino-butyryl-histidine), balenine beta-alanyl-L-3-methylhistidine) and anserine beta-alanyl-L-1-methylhistidine) are histidine-containing dipeptides (HD) particularly abundant in excitable tissues such as nervous system and skeletal muscle. Although their biochemical role is still unknown, several evidences indicate that these endogenous compounds act as quenchers of reactive and cytotoxic carbonyl species. In this presentation we will review the structural evidences and ex vivo data supporting this hypothesis. We first elucidated the reaction mechanism of carnosine as quencher of alpha, beta-unsaturated aldehydes such as 4-hydroxy-trans-2,3-nonenal (HNE) and acrolein (ACR) and then demonstrated the efficacy of carnosine and related peptides as detoxifying agents of HNE in spontaneously oxidized rat skeletal muscle, by detecting the corresponding HNE-Michael adducts in the crude biological matrix by liquid chromatography/electrospray ionization tandem mass spectrometry (LC-ESI-MS/MS). Finally, we set-up and validated a sensitive, selective and specific LC-ESI-MS/MS method for the determination of HD and of the corresponding HNE-Michael adducts to monitor their profile in physiological (aging) and pathological conditions (diabetes, atherosclerosis) characterized by a carbonyl-mediated degenerative overload. The results obtained, beside to give a contribution to the understanding of the biochemical role of histidine-dipeptides, provide a strong rational to the design of novel derivatives, active as exogenous agents able to detoxify carbonyl compounds.
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PMID:Carnosine and related dipeptides as quenchers of reactive carbonyl species: from structural studies to therapeutic perspectives. 1640 66

Disodium disuccinate astaxanthin ('rac'-dAST; Cardax) is a water-dispersible C40 carotenoid derivative under development for oral and parenteral administration for cardioprotection of the at-risk ischemic cardiovascular patient. In experimental infarction models in animals (rats, rabbits, and dogs), significant myocardial salvage has been obtained, up to 100% at the appropriate dose in dogs. The documented mechanism of action in vitro includes direct scavenging of biologically produced superoxide anion; in vivo in rabbits, modulation of the complement activity of serum has also been shown. A direct correlation between administration of the test compound in animals and reductions of multiple, independent markers of oxidative stress in serum was recently obtained in a rat experimental infarction model. For the current study, it was hypothesized that oral Cardax administration would inhibit oxidative damage of multiple relevant biological targets in a representative, well-characterized murine peritoneal inflammation model. A previously developed mass spectrometry-based (LC/ESI/MS/MS) approach was used to interrogate multiple distinct pathways of oxidation in a black mouse (C57/BL6) model system. In vivo markers of oxidant stress from peritoneal lavage samples (supernatants) were evaluated in mice on day eight (8) after treatment with either Cardax or vehicle (lipophilic emulsion without drug) orally by gavage at 500 mg/kg once per day for seven (7) days at five (5) time points: (1) baseline prior to treatment (t=0); (2) 16 h following intraperitoneal (i.p.) injection with thioglycollate to elicit a neutrophilic infiltrate; (3) 4 h following i.p. injection of yeast cell wall (zymosan; t=16 h/4 h thioglycollate+zymosan); (4) 72 h following i.p. injection with thioglycollate to elicit monocyte/macrophage infiltration; and (5) 72 h/4 h thioglycollate+zymosan. A statistically significant sparing effect on the arachidonic acid (AA) and linoleic acid (LA) substrates was observed at time points two and five. When normalized to the concentration of the oxidative substrates, statistically significant reductions of 8-isoprostane-F(2alpha) (8-iso-F(2alpha)) at time point three (maximal neutrophil recruitment/activation), and 5-HETE, 5-oxo-EET, 11-HETE, 9-HODE, and PGF(2alpha) at time point five (maximal monocyte/macrophage recruitment/activation) were observed. Subsequently, the direct interaction of the optically inactive stereoisomer of Cardax (meso-dAST) with human 5-lipoxygenase (5-LOX) was evaluated in vitro with circular dichroism (CD) and electronic absorption (UV/Vis) spectroscopy, and subsequent molecular docking calculations were made using mammalian 15-LOX as a surrogate (for which XRC data has been reported). The results suggested that the meso-compound was capable of interaction with, and binding to, the solvent-exposed surface of the enzyme. These preliminary studies provide the foundation for more detailed evaluation of the therapeutic effects of this compound on the 5-LOX enzyme, important in chronic diseases such as atherosclerosis, asthma, and prostate cancer in humans.
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PMID:The effects of oral Cardax (disodium disuccinate astaxanthin) on multiple independent oxidative stress markers in a mouse peritoneal inflammation model: influence on 5-lipoxygenase in vitro and in vivo. 1646 47

Apolipoprotein A-I (apoA-I), the major protein constituent within high-density lipoprotein (HDL), has been associated with antiatherogenic protection by mechanisms that include reverse cholesterol transport and antiinflammatory functions. To evaluate the proposed protective function of apoA-I, proteins modified by nitrating oxidants were evaluated in the aortic tissue and plasma of mice lacking the low-density lipoprotein receptor and apobec (LA) and LA mice with genetic deletion of apoA-I (LA-apoA-I(-/-)). The levels of nitrated proteins in aortic tissue quantified by liquid chromatography with online electrospray ionization tandem mass spectrometry (LC/ESI/MS/MS) were 6-fold higher in the LA-apoA-I(-/-) as compared with the LA mice. The quantitative analyses were corroborated by immunohistochemical and high-resolution immunoelectron microscopic evaluation of the lesions, which revealed abundant staining for nitrated proteins in the aortic root lesions of LA-apoA-I(-/-) as compared with the LA mice. Proteomic approaches based on affinity enrichment and site-specific adduct mapping identified unique specific protein targets for nitration in the plasma of LA-apoA-I(-/-) that were not present in the plasma of LA mice. In particular the nitration of fibrinogen was shown to accelerate fibrin clot formation. Another consequence of the augmented levels of nitrated proteins was the induction of humoral responses documented by the increased circulating immunoglobulins that recognize nitrotyrosine in LA-apoA-I(-/-) as compared with the LA mice. These data collectively support a protective function of apoA-I diminishing the burden of nitrative oxidants in these mice models of atherosclerosis.
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PMID:Increased protein nitration burden in the atherosclerotic lesions and plasma of apolipoprotein A-I deficient mice. 1761 69

Homocysteine is an endogenous sulphydryl aminoacid irreversibly catabolized by transsulfuration to cysteine or remethylated to methionine. Increased plasma levels of homocysteine are an independent risk factor for atherosclerosis and cardiovascular disease. Accurate and reliable quantification of this amino acid in plasma samples is essential in clinical practice to explore the presence of a hyperhomocysteinemia, for instance after an ischemic event, or to control a possible adjunctive risk factor in patients at higher risk. In this review, LC-ESI-MS/MS methods are discussed and compared with other analytical methods for plasma homocysteine. LC-ESI-MS/MS is a technique combining the physicochemical separation of liquid chromatography with the analysis of mass spectrometry. It is based on stable-isotope dilution and possesses inherent accuracy and precision. Quantitative analysis is achieved by using commercially available homocystine-d(8) as an internal standard. Taking advantage of the high sensitivity and specificity, approaches involving LC-ESI-MS/MS require less laborious sample preparation, no derivatization and produce reliable results.
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PMID:Stable-isotope dilution LC-ESI-MS/MS techniques for the quantification of total homocysteine in human plasma. 1965 43

A simple capillary zone electrophoresis (CZE) method was used to characterize native, in vitro oxidized and glycated human high-density lipoprotein (HDL) particles. Both native and in vitro oxidized HDL capillary electrophoresis (CE) profiles showed a major peak, but the oxidized HDL particles had higher effective mobilities. The in vitro glycated HDL particles showed a major peak and one or two minor peaks. The effective mobility of the major peak of glycated HDL was similar to that of the major peak of native HDL, whereas the effective mobilities of the two minor peaks were much lower. For the analysis of HDL phospholipids, a solid phase extraction procedure was optimized and a LC ESI-MS method was developed. Several possible HDL phospholipid molecular species including phosphatidylcholine (PC 16:0/18:2, 16:0/18:1, 18:0/18:2 and 18:0/18:1), sphingomyelin (SM 16:0) and lyso-phosphatidylcholine (lysoPC 16:0 and 18:0) were found. It appeared that the ion intensity ratios of hydroperoxy-PC or epoxyhydroxy-PC (16:0/hydroperoxy-18:2 or 16:0/epoxyhydroxy-18:2, m/z 790.4) and trihydroxy-PC (16:0/trihydroxy-18:2, m/z 808.3) relative to PC (C16:0/C18:2, m/z 758.5) were higher for oxidized HDL than for native and glycated HDL. It should be helpful to use both CZE and LC ESI-MS methods for analyzing high-density lipoproteins from patients of cardiovascular disease. Their combination may be also useful for further studies concerning the role of oxidized and glycated HDLs in the development of atherosclerosis.
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PMID:Characterization of in vitro modified human high-density lipoprotein particles and phospholipids by capillary zone electrophoresis and LC ESI-MS. 1973 47

Lysophosphatidylcholine (LPC) is a bioactive lipid implicated to play a functional role in various diseases including atherosclerosis, diabetes, cancer, and inflammation. Conventional methods are of limited value for a systematic evaluation of LPC species concentrations due to complicated, time-consuming procedures. Here we describe a methodology based on electrospray ionization tandem mass spectrometry (ESI-MS/MS) applicable for high-throughput LPC species quantification. This assay provides accuracy and precision sufficient for the analysis of large clinical studies as well as basic biochemical studies in a broad range of biological material including plasma, tissues, and cell culture material. This method may be combined with methods based on the same analytical setup for glycerophospholipid, sphingolipid, and sterol analysis to evaluate LPC species in relation to other lipid species profiles.
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PMID:Quantification of lysophosphatidylcholine species by high-throughput electrospray ionization tandem mass spectrometry (ESI-MS/MS). 1978 93


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