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Showing 1581–1600 of 2058 publications.
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Medana, Isabelle M.; Day, Nicholas P.J.; Salahifar-Sabet, Houta; Stocker, Roland; SMYTHE, George A.; Bwanaisa, Lloyd L.; Njobvu, Alfred; Kayira, Kondwani; Turner, Gareth D.H.; Taylor, Terrie Ellen; Hunt, Nicholas H.A retrospective study of 100 Malawian children (87 with malaria and 13 with a diagnosis other than malaria) was conducted to determine the relationship between levels of metabolites of the kynurenine pathway in cerebrospinal fluid (CSF) and disease outcome. Three metabolites were measured: quinolinic acid (QA), an excitotoxin; kynurenic acid (KA), a neuroprotective receptor antagonist; and picolinic acid (PA), a proinflammatory mediator. Elevated levels of QA and PA in CSF were associated with a fatal outcome in Malawian children with cerebral malaria (CM). QA was associated with a history of convulsions. An increase in the QA: KA ratio, which favors neurotoxicity, was observed only in the 3 patients with tuberculosis meningitis. Compared with Vietnamese adults with malaria, Malawian children with malaria had higher concentrations of KA. Elevated levels of KA in children with CM may serve to contain injury in the developing brain, which is more susceptible to excitotoxic damage than is the adult brain.
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Hagerman, Ann Elizabeth; Dean, Roger T.; Davies, Michael J.The radical chemistry of the plant polyphenolics epigallocatechin gallate (EGCG) and epigallocatechin (EGC) were investigated using electron paramagnetic resonance spectroscopy. Radical species formed spontaneously in aqueous solutions at low pH without external oxidant and were spin stabilized with Zn(II). The spectra were assigned to the gallyl radical and the anion gallyl radical, with only 10% of the signal assigned to a radical from the galloyl ester. Spectral simulations were used to establish a pK<inf>a</inf> of 4.8 for the EGCG radical and a pK<inf>a</inf> of 4.4 for the EGC radical. The electrochemical redox potentials of EGCG and EGC varied from 1000mV at pH 3 to 400mV at pH 8. The polyphenolics did not produce hydroxyl radicals unless reduced metal ions such as iron(II) were added to the system. Zinc(II)-stabilized EGCG radicals were more effective protein-precipitating agents than unoxidized EGCG and produced irreversibly complexed protein. EGCG and other naturally occurring polyphenolics are effective radical scavengers but their radical products have the potential to damage biological molecules such as proteins. 2003 Elsevier Science (USA). All rights reserved.
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Liu, Sue Min; Cogny, Anne; Kockx, Maae; Dean, Roger T.; Gaus, Katharina; Jessup, Wendy K.; Kritharides, LeonardHuman monocyte-derived foam cell macrophages (HMFCs) are resistant to cholesterol efflux mediated by physiological acceptors. The role of the plasma membrane in regulating depletion of free cholesterol (FC) and of cholesteryl ester (CE) was investigated using cyclodextrins (CDs). HMFCs were incubated in media containing CDs (1.0 mg/ml, ?0.7 mM) with low [hydroxypropyl-?-CD (HP-CD)] or high [trimethyl-?-CD (TM-CD)] affinity for cholesterol in the presence or absence of phospholipid vesicles (PLVs). Low-affinity HP-CD caused minimal cholesterol efflux on its own, but HP-CD+ PLV depleted cell FC and CE to 54.5 6.7% of control by 24 h. TM-CD depleted FC at least as well as HP-CD+PLV but without depleting CE, even when combined with PLV. This was not explained by acceptor saturation, instability of PLV vesicles, de novo cholesterol synthesis, kinetically distinct cholesterol pools, or inhibition of CE hydrolysis. TM-CD did, however, deplete CE when lower concentrations of TM-CD were combined with PLV and when acetyl-CoA cholesteryl acyltransferase was inhibited. TM-CD caused much greater depletion of plasma membrane cholesterol than HP-CD without depleting plasma membrane sphingomyelin. It is concluded that differential depletion of plasma membrane cholesterol pools regulates cholesterol efflux and CE clearance in human macrophages.
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Davies, Michael J.Proteins comprise approximately 68% of the dry weight of cells and tissues and are therefore potentially major targets for oxidative damage. Two major types of processes can occur during the exposure of proteins to UV or visible light. The first of these involves direct photo-oxidation arising from the absorption of UV radiation by the protein, or bound chromophore groups, thereby generating excited states (singlet or triplets) or radicals via photo-ionisation. The second major process involves indirect oxidation of the protein via the formation and subsequent reactions of singlet oxygen generated by the transfer of energy to ground state (triplet) molecular oxygen by either protein-bound, or other, chromophores. Singlet oxygen can also be generated by a range of other enzymatic and non-enzymatic reactions including processes mediated by heme proteins, lipoxygenases, and activated leukocytes, as well as radical termination reactions. This paper reviews the data available on singlet oxygen-mediated protein oxidation and concentrates primarily on the mechanisms by which this excited state species brings about changes to both the side-chains and backbone of amino acids, peptides, and proteins. Recent work on the identification of reactive peroxide intermediates formed on Tyr, His, and Trp residues is discussed. These peroxides may be important propagating species in protein oxidation as they can initiate further oxidation via both radical and non-radical reactions. Such processes can result in the transmittal of damage to other biological targets, and may play a significant role in bystander damage, or dark reactions, in systems where proteins are subjected to oxidation. 2003 Elsevier Science (USA). All rights reserved.
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Rye, Kerry Anne; Wee, Kevin; Curtiss, Linda K.; Bonnet, David J.; Barter, Philip J.The high density lipoproteins (HDL) in human plasma are classified on the basis of apolipoprotein composition into those containing apolipoprotein (apo) A-I but not apoA-II, (A-I)HDL, and those containing both apoA-I and apoA-II, (A-I/A-II)HDL. Cholesteryl ester transfer protein (CETP) transfers core lipids between HDL and other lipoproteins. It also remodels (A-I)HDL into large and small particles in a process that generates lipid-poor, pre-?-migrating apoA-I. Lipid-poor apoA-I is the initial acceptor of cellular cholesterol and phospholipids in reverse cholesterol transport. The aim of this study is to determine whether lipid-poor apoA-I is also formed when (A-I/A-II)rHDL are remodeled by CETP. Spherical reconstituted HDL that were identical in size had comparable lipid/ apolipoprotein ratios and either contained apoA-I only, (A-I)rHDL, or (A-I/A-II)rHDL were incubated for 0-24 h with CETP and Intralipid. At 6 h, the apoA-I content of the (A-I)rHDL had decreased by 25% and there was a concomitant formation of lipid-poor apoA-I. By 24 h, all of the (A-I)rHDL were remodeled into large and small particles. CETP remodeled -32% (A-I/A-II)rHDL into small but not large particles. Lipid-poor apoA-I did not dissociate from the (A-I/A-II)rHDL. The reasons for these differences were investigated. The binding of monoclonal antibodies to three epitopes in the C-terminal domain of apoA-I was decreased in (A-I/A-II)rHDL compared with (A-I)rHDL. When the (A-I/A-II)rHDL were incubated with Gdn-HCl at pH 8.0, the apoA-I unfolded by 15% compared with 100% for the apoA-I in (A-I)rHDL. When these incubations were repeated at pH 4.0 and 2.0, the apoA-I in the (A-I)rHDL and the (A-I/A-II)rHDL unfolded completely. These results are consistent with salt bridges between apoA-II and the C-terminal domain of apoA-I, enhancing the stability of apoA-I in (A-I/A-II)rHDL and possibly contributing to the reduced remodeling and absence of lipid poor apoA-I in the (A-I/A-II)rHDL incubations.
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Sekyere, Eric Owusu; Food, Michael R.; Richardson, Des Raymond[No abstract available]
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Choy, Katherine J.; Deng, Yi-Mo; Hou, Jingyun; Wu, Ben Jing; Lau, Antony K.; Witting, Paul Kenneth; Stocker, RolandOxidized lipoproteins are implicated in atherosclerosis, and some antioxidants attenuate the disease in animals. Coenzyme Q<inf>10</inf> (CoQ <inf>10</inf>) in its reduced form, ubiquinol-10, effectively inhibits lipoprotein oxidation in vitro and in vivo; CoQ<inf>10</inf> supplements also inhibit atherosclerosis in apolipoprotein E gene knockout (apoE-/-) mice. Here we tested the effect of dietary CoQ<inf>10</inf> supplements on intimal proliferation and lipoprotein lipid oxidation in balloon-injured, hypercholesterolemic rabbits. Compared to nonsupplemented chow, CoQ <inf>10</inf> supplementation (0.5% and 1.0%, w/w) significantly increased the plasma concentration of CoQ<inf>10</inf> and the resistance of plasma lipids to ex vivo oxidation. CoQ<inf>10</inf> supplements also increased the content of CoQ<inf>10</inf> in the aorta and liver, but not in the brain, skeletal muscle, kidney, and heart. Surprisingly, CoQ<inf>10</inf> supplementation at 1% increased the aortic concentrations of all lipids, particularly triacylglycerols, although it significantly inhibited the proportion of triacylglycerols present as hydroperoxides by > 80%. The observed increase in vessel wall lipid content was reflected in elevated plasma concentrations of cholesterol, cholesteryl esters and triacylglycerols, and hepatic levels of mRNA for 3-hydroxy-3-methylglutaryl-coenzyme A reductase. CoQ<inf>10</inf> supplements did not attenuate lesion formation, assessed by the intima-to-media ratio of injured aortic vessels. Thus, like in apoE-/- mice, a high dose of supplemented CoQ<inf>10</inf> inhibits lipid oxidation in the artery wall of balloon-injured, hypercholesterolemic rabbits. However, unlike its antiatherosclerosis activity in the mice, CoQ<inf>10</inf> does not inhibit intimal hyperplasia in rabbits, thereby dissociating this disease process from lipid oxidation in the vessel wall. 2003 Elsevier Inc.
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Griffiths, Kaye A.; Sader, Mark A.; Skilton, Michael R.; Harmer, Jason A.; Celermajer, David S.OBJECTIVES: We sought to assess the effects of raloxifene, a selective estrogen receptor modulator, on arterial physiology and biology in postmenopausal women with coronary artery disease (CAD). BACKGROUND: Raloxifene improves endothelial function and markers of vascular health in vitro in experimental animals and in healthy postmenopausal women. In women whose arteries are affected by advanced atherosclerosis, however, the vascular effects of estrogen receptor modulation are unknown. METHODS: We conducted a prospective, randomized, double-blinded, placebo-controlled, crossover trial of raloxifene, 60 mg/day for 8 weeks, in 33 consecutively eligible and consenting postmenopausal women age 50 to 75 years with known CAD. Parameters measured at the beginning and end of each treatment period included brachial artery flow-mediated dilation (FMD), the primary end point, as well as nitroglycerin-induced dilation, peripheral artery tonometry, serum lipoprotein levels, and markers of vascular function, including urinary prostaglandin, serum endothelin-1, and fibrinogen levels. RESULTS: Baseline FMD was impaired in these women, as expected (2.84 0.60%), but there was no significant difference between the effect of raloxifene (0.26 0.66% increase) and placebo (0.01 0.63% decrease) on this marker of endothelial function (p = 0.82). No significant raloxifene-related effects were observed on derived aortic pressure, pulse pressure, augmentation index, total cholesterol or low- and high-density lipoprotein subfractions, markers of thrombosis, or vasoconstrictor or vasodilator substances. CONCLUSIONS: In postmenopausal women with treated CAD, selective estrogen receptor modulation with raloxifene does not improve a comprehensive set of parameters examining vascular function and serum lipoprotein levels. 2003 by the American College of Cardiology Foundation.
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Knott, Heather M.; Brown, Bronwyn E.; Davies, Michael J.; Dean, Roger T.Patients with diabetes mellitus suffer from an increased incidence of complications including cardiovascular disease and cataracts; the mechanisms responsible for this are not fully understood. One characteristic of such complications is an accumulation of advanced glycation end-products formed by the adduction of glucose or species derived from glucose, such as low-molecular mass aldehydes, to proteins. These reactions can be nonoxidative (glycation) or oxidative (glycoxidation) and result in the conversion of low-density lipoproteins (LDL) to a form that is recognized by the scavenger receptors of macrophages. This results in the accumulation of cholesterol and cholesteryl esters within macrophages and the formation of foam cells, a hallmark of atherosclerosis. The nature of the LDL modifications required for cellular recognition and unregulated uptake are poorly understood. We have therefore examined the nature, time course, and extent of LDL modifications induced by glucose and two aldehydes, methylglyoxal and glycolaldehyde. It has been shown that these agents modify Arg, Lys and Trp residues of the apoB protein of LDL, with the extent of modification induced by the two aldehydes being more rapid than with glucose. These processes are rapid and unaffected by low concentrations of copper ions. In contrast, lipid and protein oxidation are slow processes and occur to a limited extent in the absence of added copper ions. No evidence was obtained for the stimulation of lipid or protein oxidation by glucose or methylglyoxal in the presence of copper ions, whereas glycolaldehyde stimulated such reactions to a modest extent. These results suggest that the earliest significant events in this system are metal ion-independent glycation (modification) of the protein component of LDL, whilst oxidative events (glycoxidation or direct oxidation of lipid or proteins) only occur to any significant extent at later time points. This 'carbonyl-stress' may facilitate the formation of foam cells and the vascular complications of diabetes.
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Martinic, Gary; Hazell, Linda J.; Stocker, RolandHistorically, studies of atherosclerosis and vascular disease have been performed in larger animal species, other than small rodents. Published information on vascular dissection in mice, because of the technical challenges it presents, has been limited. However, with the advent of transgenic technology, such procedures are becoming more commonplace. In particular, mice in which genes such as LDL or apolipoprotein E have been 'knocked-out' have recently provided powerful small animal models for such work. The methodology presented provides a clear, accurate, and detailed description for removing the entire mouse aorta for further analysis in atherogenic investigations. Thus, our article likely will provide a useful guide to those new to this technique, and for researchers undertaking similar studies, and the technique could be adapted to other species easily.
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Ng, Martin K.C.; Nakhla, Shirley; Baoutina, Anna; Jessup, Wendy K.; Handelsman, David J.; Celermajer, David S.OBJECTIVES: We studied the effects of dehydroepiandrosterone (DHEA), an abundant adrenal androgen, on two key early events of atherogenesls: 1) human monocyte adhesion to vascular endothelium, and 2) human foam cell formation. BACKGROUND: In the U.S., where DHEA is available without prescription, there has recently been a rapid increase in unsupervised self-administration of DHEA. The vascular biologic effects of DHEA are largely unknown, however. METHODS: Regarding adhesion, human umbilical vein endothelial cells (HUVECs), exposed to either DHEA (42 or 420 nmol/l) or control, were incubated with human monocytes, and adhesion was measured by hemocytometry. Surface expression of endothelial cell adhesion molecules was measured by ELISA. Regarding foam cell formation, studies of lipid loading were performed on macrophages treated with DHEA or control and/or the androgen receptor antagonist hydroxyflutamide (HF) (4 ?mol/l). Intracellular cholesterol and cholesteryl esters (CE) were quantified by high-performance liquid chromatography. Expression of foam cell formation-related genes was measured by reverse-transcription polymerase chain reaction. RESULTS: DHEA produced a dose-dependent receptor-mediated increase in the male macrophage CE content (up to 120 4% of control values, p = 0.015). DHEA upregulated messenger ribonucleic acid expression of the lipoprotein-processing enzymes acyl coenzyme A:cholesterol acyltransferase I and lysosomal acid lipase by 3.4- and 5.3-fold, respectively (p < 0.05 vs. control), but had no effect on scavenger receptor expression (p > 0.2). There was no significant effect of DHEA on monocyte-endothelial adhesion (<10% change in values, p = 0.56) or endothelial cell expression of cell adhesion molecules (p > 0.1). CONCLUSIONS: DHEA increases human macrophage foam cell formation, a potentially pro-atherogenic effect. This effect appears to be mediated via the androgen receptor and involves the upregulation of lipoprotein-processing enzymes. 2003 by the American College of Cardiology Foundation.
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Aristoteli, Lina Panayiota; Willcox, Mark D.P.Pseudomonas aeruginosa has emerged as an important causative agent of bacterial keratitis, a rapidly progressive ocular condition that may result in blindness. Secretory mucin forms the main constituent of the precorneal tear film, a three-layer film on the ocular surface protecting the underlying corneal epithelium from potential pathogens. The purpose of the present study was to compare mucin degradation mechanisms between ocular P. aeruginosa strains. Mucin degradation was assessed by agarose electrophoresis, lectin blotting, and size exclusion chromatography. The results indicate that certain P. aeruginosa strains (Paer12, ATCC 15442, 6294, and Paer25) had depleted mucin from the culture supernatant and that this was contingent on the inherent ability of these isolates to produce proteases. Non-protease-producing strains (Paer1 and Paer3) did not appreciably degrade mucin. Further, galactosidase, N-acetylglucosaminidase, and N-acetylgalactosaminidase activities were detected in some strains, suggesting the operation of further mechanisms of mucin degradation by P. aeruginosa. Mucin degradation by P. aeruginosa also seemed to be for the acquisition of nutrients, as a growth advantage was observed in mucin-depleting strains over nondepleting strains in the long term. It is postulated that the degradation of mucin serves to collapse the mucin barrier and its associated network containing antibacterial tear components and to provide energy for sustained bacterial growth.
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Ng, Martin K.C.; Quinn, Carmel M.; McCrohon, Jane A.; Nakhla, Shirley; Jessup, Wendy K.; Handelsman, David J.; Celermajer, David S.; Heather, Alison KayOBJECTIVES: This study investigated the effects of androgens on gene expression in male- and female-donor macrophages. BACKGROUND: Men have more severe coronary disease than women. Androgen exposure increases foam cell formation in male but not female macrophages, and male macrophages express <4-fold more androgen receptor messenger ribonucleic acid than female macrophages. Therefore, androgen exposure may have gender-specific and potentially pro-atherogenic effects in macrophages. METHODS: Utilizing complementary deoxyribonucleic acid arrays, we studied the effects of a pure androgen (dihydrotestosterone, 40 nmol/l) on human monocyte-derived macrophages from healthy male and female donors (n = 4 hybridizations; 2 men, 2 women). Differential expression of atherosclerosis-related genes was confirmed by real-time reverse transcription-polymerase chain reaction (RT-PCR) in five male and five female donors. Functional corroboration of foam cell formation-related findings was undertaken by experiments using 125I-acetylated low-density lipoprotein (AcLDL). RESULTS: In male macrophages, androgen treatment produced differential up-regulation of 27 genes concentrated in five functional classes: 1) lipoprotein processing; 2) cell-surface adhesion; 3) extracellular signaling; 4) coagulation and fibrinolysis; and 5) transport protein genes. By contrast, none of 588 genes were up-regulated in female macrophages. By RT-PCR, we confirmed the gender-specific up-regulation of six of these atherosclerosis-related genes: acyl coenzyme A:cholesterol acyl transferase I, lysosomal acid lipase (LAL), caveolin-2, CD40, vascular endothelial growth factor-165 receptor, and tissue factor pathway inhibitor. Functionally, androgen-treated male macrophages showed increased rates of lysosomal AcLDL degradation, by 45% to 75% after 15 to 20 h of 125I-AcLDL incubation (p = 0.001), consistent with increased LAL activity. CONCLUSIONS: Androgens increase expression of atherosclerosis-related genes in male but not female macrophages, with functional consequences. These findings may contribute to the male predisposition to atherosclerosis. 2003 by the American College of Cardiology Foundation.
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Liang, S. X.; Richardson, Des RaymondIron (Fe) chelators induce a G<inf>1</inf>/S arrest and several of these are undergoing clinical trials as anticancer agents. Despite this, little is known concerning the precise function of Fe in cell cycle progression and the role of p53 in this process. The aim of this study was to assess the effect of Fe chelators on p53 and the mechanism involved in the chelator-mediated increase in mRNA levels of the universal cyclin-dependent kinase inhibitor p21CIP1/WAF1. Cells were incubated with the potent Fe chelator 2-hydroxy-1-naphthylaldehyde isonicotinoyl hydrazone (311) and the results compared with those from cells treated with actinomycin D (Act D), which induces p53. Following incubation with 311, a 3- to 5-fold increase in nuclear p53 protein was observed in cells with wild-type p53. In addition, 311 increased p53 DNA-binding activity 2-fold, while Act D increased it 3- to 5-fold in cells with native p53. To determine the role of p53 in WAF1 transcription, a reporter construct was used consisting of a WAF1 promoter containing the p53-binding site. In cells with wild-type p53, chelators had no effect on luciferase activity, while the positive control, Act D, caused a significant increase. Hence, despite increased p53 protein expression and p53 DNA-binding activity following chelation, these latter results suggested it had no role in up-regulating WAF1 mRNA. Our experiments demonstrated: (i) that the elevated WAF1 mRNA expression after Fe chelation was due to increased transcription and also to a post-transcriptional mechanism that was sensitive to cycloheximide; and (ii) that Fe-chelation increased WAF1 expression through a p53-independent pathway.
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Barter, Philip J.[No abstract available]
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Van Reyk, David M.; Gillies, Mark C.; Davies, Michael J.A prominent and early feature of the retinopathy of diabetes mellitus is a diffuse increase in vascular permeability. As the disease develops, the development of frank macular oedema may result in vision loss. That reactive oxygen species production is likely to be elevated in the retina, and that certain regions of the retina are enriched in substrates for lipid peroxidation, may create an environment susceptible to oxidative damage. This may be more so in the diabetic retina, where hyperglycaemia may lead to elevated oxidant production by a number of mechanisms, including the production of oxidants by vascular endothelium and leukocytes. There is substantial evidence from animal and clinical studies for both impaired antioxidant defences and increased oxidative damage in the retinae of diabetic subjects that have been, in the case of animal studies, reversible with antioxidant supplementation. Whether oxidative damage has a causative role in the pathology of diabetic retinopathy, and thus whether antioxidants can prevent or correct any retinal damage, has not been established, nor has the specific nature of any damaging species been characterised.
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Rees, Martin D.; Hawkins, Clare L.; Davies, Michael J.Myeloperoxidase released from activated phagocytes reacts with H <inf>2</inf>O<inf>2</inf> in the presence of chloride ions to give hypochlorous acid. This oxidant has been implicated in the fragmentation of glycosaminoglycans, such as hyaluronan and chondroitin sulfates. In this study it is shown that reaction of HOCI with glycosaminoglycans and model compounds yields chloramides derived from the N-acetyl function of the glycosamine rings. The results of EPR spin trapping and product studies are consistent with the formation of amidyl radicals from these chloramides via both metal ion-dependent and -independent processes. In the case of glycosaminoglycan-derived amidyl radicals, evidence has been obtained in studies with model glycosides that these radicals undergo rapid intramolecular abstraction reactions to give carbon-centered radicals at C-2 on the N-acetyl glycosamine rings (via a 1,2-hydrogen atom shift) and at C-4 on the neighboring uronic acid residues (via 1,5-hydrogen atom shifts). The C-4 carbon-centered radicals, and analogous species derived from model glycosides, undergo pH-independent ?-scission reactions that result in glycosidic bond cleavage. With N-acetyl glucosamine C-1 alkyl glycosides, product formation via this mechanism is near quantitative with respect to chloramide loss. Analogous reactions with the glycosaminoglycans result in selective fragmentation at disaccharide intervals, as evidenced by the formation of "ladders" on gels; this selectivity is less marked under atmospheric oxygen concentrations than under anoxic conditions, due to competing peroxyl radical reactions. As the extracellular matrix plays a key role in mediating cell adhesion, growth, activation, and signaling, such HOCI-mediated glycosaminoglycan fragmentation may play a key role in disease progression and resolution, with the resulting fragments modulating the magnitude and quality of the immune response in inflammatory conditions.
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Woods, Alan A.; Davies, Michael J.The interaction of extracellular matrix with cells regulates their adhesion, migration and proliferation, and it is believed that damage to vascular matrix components is a factor in the development of atherosclerosis. Evidence has been provided for a role for the haem enzyme MPO (myeloperoxidase), released by activated monocytes (and possibly macrophages), in oxidative events within the artery wall. As MPO is released extracellularly, and is highly basic, it might be expected to associate with poly-anionic matrix components thereby localizing damage to these materials. In this study the reaction of the MPO-derived oxidant hypochlorous acid (HOCl) with extracellular matrix from vascular smooth muscle cells and healthy pig arteries has been examined. HOCl is rapidly consumed by such matrix samples, with the formation of matrix-derived chloramines or chloramides. The yield of these intermediates increases with HOCl dose. These materials undergo a time- and temperature-dependent decay, which parallels the release of sugar and protein components from the treated matrix, consistent with these species being important intermediates. Matrix damage is enhanced by species that increase chloramine/ chloramide decomposition, with copper and iron ions being effective catalysts, and decreased by compounds which scavenge chloramines/chloramides, or species derived from them. The effect of such matrix modifications on cellular behaviour is poorly understood, though it is known that changes in matrix materials can have profound effects on cell adhesion, proliferation, growth and phenotype. The observed matrix modifications reported here may therefore modulate cellular behaviour in diseases such as atherosclerosis where MPO-derived oxidants are generated.
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Duong, Myngan Ngan; Psaltis, Maria K.; Rader, Daniel J.; Marchadier, Dawn H.L.; Barter, Philip J.; Rye, Kerry AnneHepatic lipase (HL) and endothelial lipase (EL) are both members of the triglyceride lipase gene family. HL hydrolyzes phospholipids and triglycerides in triglyceride-rich lipoproteins and high-density lipoproteins (HDL). EL hydrolyzes HDL phospholipids and has low triglyceride lipase activity. The aim of this study was to determine if HL and EL hydrolyze different HDL phospholipids and whether HDL phospholipid composition regulates the interaction of EL and HL with the particle surface. Spherical, reconstituted HDL (rHDL) containing either 1-palmitoyl-2-oleoylphosphatidylcholine (POPC), 1-palmitoyl-2-linoleoylphosphatidylcholine (PLPC), 1-palmitoyl-2-arachidonylphosphatidylcholine (PAPC), or 1-palmitoyl-2-docosahexanoylphosphatidylcholine (PDPC) as the only phospholipid, apolipoprotein A-I as the only apolipoprotein, and either cholesteryl esters (CE) only or mixtures of CE and triolein (TO) in their core were prepared. The rHDL were similar in size and had comparable core lipid/apoA-I molar ratios. The CE-containing rHDL were used to determine the kinetics of HL- and EL-mediated phospholipid hydrolysis. For HL the V<inf>max</inf> of phospholipid hydrolysis for (POPC)rHDL > (PLPC)rHDL ? (PDPC)rHDL > (PAPC)rHDL, while the K<inf>m</inf>(app) for (POPC) rHDL > (PDPC)rHDL > (PLPC)rHDL > (PAPC)rHDL. For EL the V<inf>max</inf> for (PDPC)rHDL > (PAPC)rHDL > (PLPC)rHDL ? (POPC)rHDL, while the K<inf>m</inf>(app) for (PAPC)rHDL ? (PLPC)rHDL > (POPC)rHDL > (PDPC)rHDL. The kinetics of EL- and HL-mediated TO hydrolysis was determined using rHDL that contained TO in their core. For HL the V<inf>max</inf> of TO hydrolysis for (PLPC)rHDL > (POPC)rHDL > (PAPC)rHDL > (PDPC)rHDL, while the K<inf>m</inf>(app) for (PLPC)rHDL > (POPC)rHDL ? (PAPC)rHDL > (PDPC)rHDL. For EL the V<inf>max</inf> and K<inf>m</inf>(app) for (PAPC)rHDL > (PDPC)rHDL > (PLPC)rHDL > (POPC)rHDL. These results establish that EL and HL have different substrate specificities for rHDL phospholipids and that their interactions with the rHDL surface are regulated by phospholipids.
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Hawkins, Clare L.; Pattison, David I.; Davies, Michael J.Activated phagocytes generate the potent oxidant hypochlorite (HOCl) via the release of the enzyme myeloperoxidase and hydrogen peroxide. HOCl is known to react with a number of biological targets including proteins, DNA, lipids and cholesterol. Proteins are likely to be major targets for reaction with HOCl within a cell due to their abundance and high reactivity with HOCl. This review summarizes information on the rate of reaction of HOCl with proteins, the nature of the intermediates formed, the mechanisms involved in protein oxidation and the products of these reactions. The predicted targets for reaction with HOCl from kinetic modeling studies and the consequences of HOCl-induced protein oxidation are also discussed.
