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)

Myeloperoxidase (MPO) is a microbicidal and reactive species-generating enzyme. It traditionally is considered to be stored mostly within polymorphonuclear leukocytes and is strongly implicated in the pathogenesis of numerous diseases. MPO also has been studied for at least 20 years as a marker of hemodialysis procedure biocompatibility and oxidative stress generation; research yielded discordant and inconclusive results. In this review, a novel and growing body of evidence indicating that MPO also is a potent blood vessel-bound enzyme that can be mobilized rapidly and extensively into circulating blood by exogenous heparin is discussed. Beneficial consequences of such evoked arterial wall MPO depletion that may be counterbalanced in part by the harmful effects of circulating MPO on polymorphonuclear leukocyte activation and thus atherosclerosis propagation also are presented. Potential clinical implications of these undervalued phenomena in commonly atherosclerotic maintenance hemodialysis patients regularly administered large doses of heparin for temporary blood anticoagulation (frequently over years) are stressed, including the challenging issue of morbidity and mortality. In view of the plausible clinical importance of the novel MPO-oxidative stress-heparin interaction in this population, the need for additional studies assessing different dialyzer membranes, various heparin types (unfractionated heparin versus low-molecular-weight heparins versus pentasaccharides), as well as different anticoagulation regimens, is emphasized.
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PMID:Myeloperoxidase as a marker of hemodialysis biocompatibility and oxidative stress: the underestimated modifying effects of heparin. 1637 83

Myeloperoxidase (MPO) is an oxidant-generating enzyme present in macrophages at atherosclerotic lesions and implicated in coronary artery disease (CAD). Although mouse models are important for investigating the role of MPO in atherosclerosis, neither mouse MPO nor its oxidation products are detected in lesions in murine models. To circumvent this problem, we generated transgenic mice expressing two functionally different human MPO alleles, with either G or A at position -463, and crossed these to the LDL receptor-deficient (LDLR(-/-)) mouse. The -463G allele is linked to higher MPO expression and increased CAD incidence in humans. Both MPO alleles were expressed in a subset of lesions in high-fat-fed LDLR(-/-) mice, notably at necrotic lesions with cholesterol clefts. MPOG-expressing LDLR(-/-) males (but not females) developed significantly higher serum cholesterol, triglycerides, and glucose, all correlating with increased weight gain/obesity, implicating MPO in lipid homeostasis. The MPOG- and MPOA-expressing LDLR(-/-) males also exhibited significantly larger aortic lesions than control LDLR(-/-) males. The human MPO transgenic model will facilitate studies of MPO involvement in atherosclerosis and lipid homeostasis.
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PMID:Transgenic mice express human MPO -463G/A alleles at atherosclerotic lesions, developing hyperlipidemia and obesity in -463G males. 1663 78

Atherosclerotic vascular disease is associated with abnormal vasomotor function and oxidized low density lipoproteins (OxLDL) are believed to play a keyrole therein. Several compounds emerging from LDL lipid peroxidation have been shown to be able to alter vasomotion but the role of oxidized apoB in this process is not fully understood. Myeloperoxidase has been identified in atherosclerotic lesions and hypochlorite produced by this enzyme represents a strong oxidant. LDL oxidation by hypochlorite differs from most other forms of LDL oxidation in that hypochlorite-mediated oxidation shows a predilection for the protein moiety of LDL and does not result in lipid peroxidation. In this work, we use porcine coronary artery segments and show that hypochlorite-oxidized LDL (hyp-OxLDL) are able to impair dilatation induced by substance P in a dose- and modification-dependent way. Treatment of hyp-OxLDL with methionine resulted in quantitative elimination of reactive chloramines in LDL and complete recovery of relaxation. As application of the scavenger receptor antagonist maleylated albumin strongly interferes with the effects of hyp-OxLDL on vasomotion, we conclude that specific binding of hypochlorite-modified apoB is likely to be involved in mediating the observed effects.
Atherosclerosis 2007 Feb
PMID:Redox-sensitive impairment of porcine coronary artery vasodilation by hypochlorite-modified LDL. 1673 Jul 31

Myeloperoxidase (MPO) is an oxidant-generating enzyme expressed in macrophages and implicated in atherosclerosis and cholesterol homeostasis. LXRalpha and PPARalpha regulate genes involved in cholesterol metabolism and the inflammatory response in macrophages. Here, we examine the effect of LXR and PPARalpha ligands on MPO expression. LXR and PPARalpha, as heterodimers with RXR, are shown to bind overlapping sites in an Alu receptor response element (AluRRE) in the MPO promoter. The LXR ligand T0901317 suppresses MPO mRNA expression in primary human macrophages, and in bone marrow cells and macrophages from huMPO transgenic mice. The PPARalpha ligand GW9578 downregulates MPO expression in GMCSF-macrophages, while upregulating in MCSF-macrophages. In contrast, the mouse MPO gene, which lacks the primate-specific AluRRE, is not regulated by LXR or PPARalpha ligands. These findings identify human MPO as a novel LXR and PPARalpha target gene, consistent with the role of these receptors in regulation of proinflammatory genes in macrophages.
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PMID:The human myeloperoxidase gene is regulated by LXR and PPARalpha ligands. 1695 79

Patients with type 2 diabetes mellitus (DM2) have an increased risk of cardiovascular disease (CVD). Myeloperoxidase (MPO), expressed in leukocytes and released upon activation, is associated with CVD and endothelial dysfunction. Postprandial leukocyte recruitment and activation with subsequent MPO release may contribute to atherosclerosis and CVD. We hypothesized that MPO may increase in the postprandial state because of postprandial leukocyte recruitment and/or activation, especially in subjects with DM2. One hundred postmenopausal women, aged 50 to 65 years (66 with normal glucose metabolism [NGM] and 34 with DM2), received 2 consecutive fat-rich meals and 2 consecutive carbohydrate-rich meals on separate occasions. Blood samples were taken before (t = 0) and at 2, 4, and 8 hours after breakfast; lunch was given at t = 4. Plasma MPO concentration was measured by sandwich enzyme-linked immunosorbent assay. The number of leukocytes in fasting blood samples was higher in DM2 compared with NGM (6.1 +/- 1.4 and 5.4 +/- 1.2 x 10(9)/L, respectively; P < .05). Baseline MPO concentration did not significantly differ between NGM and DM2 (51.4 +/- 12.9 and 54.5 +/- 18.4 mug/L, respectively; P = .39). Baseline MPO was positively associated with leukocytes (r = 0.20, P < .05) and inversely associated with high-density lipoprotein cholesterol (r = -0.22, P < .05). Leukocytes increased from 5.0 +/- 1.5 to 6.1 +/- 1.5 x 10(9)/L and from 5.8 +/- 1.4 to 6.6 +/- 1.4 x 10(9)/L in NGM and DM2, respectively (both P < .01), after the fat-rich meals. In contrast to our hypothesized increase in MPO, we found a significant decrease in MPO in NGM (both meal types) and DM2 (fat-rich meals only). Our findings provide no support to our initial hypothesis that meal-induced release of MPO might be a mechanism that contributes to CVD risk.
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PMID:Comparison of two consecutive fat-rich and carbohydrate-rich meals on postprandial myeloperoxidase response in women with and without type 2 diabetes mellitus. 1819 Oct 58

Myeloperoxidase (MPO) catalyzes the formation of potent oxidants that have been implicated in the pathogenesis of various diseases including atherosclerosis, asthma, arthritis, and cancer. Melatonin plays an important part in the regulation of various body functions including circadian sleep rhythms, blood pressure, oncogenesis, retinal function, seasonal reproduction, and immunity. Here, we demonstrate that melatonin serves as a potent inhibitor of MPO under physiological-like conditions. In the presence of chloride (Cl-), melatonin inactivated MPO at two points in the classic peroxidase cycle through binding to MPO to form an inactive complex, melatonin-MPO-Cl, and accelerating MPO compound II formation, an inactive form of MPO. Inactivation of MPO was mirrored by the direct conversion of MPO-Fe(III) to MPO compound II without any sign of compound I accumulation. This behavior indicates that melatonin binding modulates the formation of MPO intermediates and their decay rates. The Cl- presence enhanced the affinity of MPO toward melatonin, which switches the enzyme activity from peroxidation to catalase-like activity. In the absence of Cl-, melatonin served as a 1e- substrate for MPO compound I, but at higher concentration it limited the reaction by its dissociation from the corresponding complex. Importantly, melatonin-dependent inhibition of MPO occurred with a wide range of concentrations that span various physiological and supplemental ranges. Thus, the interplay between MPO and melatonin may have a broader implication in the function of several biological systems. This dual regulation by melatonin is unique and represents a new means through which melatonin can control MPO and its downstream inflammatory pathways.
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PMID:Melatonin is a potent inhibitor for myeloperoxidase. 1823 95

Myeloperoxidase (MPO) binds H2O2 in the absence and presence of chloride (Cl-) and catalyzes the formation of potent oxidants through 1e(-) and 2e(-) oxidation pathways. These potent oxidants have been implicated in the pathogenesis of various diseases including atherosclerosis, asthma, arthritis, and cancer. Thus, inhibition of MPO and its by-products may have a wide application in biological systems. Using direct rapid kinetic measurements and H2O2-selective electrodes, we show that tryptophan (Trp), an essential amino acid, is linked kinetically to the inhibition of MPO catalysis under physiological conditions. Trp inactivated MPO in the absence and presence of plasma levels of Cl(-), to various degrees, through binding to MPO, forming the inactive complexes Trp-MPO and Trp-MPO-Cl, and accelerating formation of MPO Compound II, an inactive form of MPO. Inactivation of MPO was mirrored by the direct conversion of MPO-Fe(III) to MPO Compound II without any sign of Compound I accumulation. This behavior indicates that Trp binding modulates the formation of MPO intermediates and their decay rates. Importantly, Trp is a poor substrate for MPO Compound II and has no role in destabilizing complex formation. Thus, the overall MPO catalytic activity will be limited by: (1) the dissociation of Trp from Trp-MPO and Trp-MPO-Cl complexes, (2) the affinity of MPO Compound I toward Cl(-) versus Trp, and (3) the slow conversion of MPO Compound II to MPO-Fe(III). Importantly, Trp-dependent inhibition of MPO occurred at a wide range of concentrations that span various physiological and supplemental ranges.
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PMID:Potential role of tryptophan and chloride in the inhibition of human myeloperoxidase. 1827 80

Myeloperoxidase (MPO) may play an important role not only in host defense reactions but also in local inflammations, especially in atherosclerotic diseases such as hypertensive nephrosclerosis (HN). Paradoxically, MPO-deficient mice have been reported to show increased atherosclerosis compared with wild mice, although higher MPO levels are thought to exacerbate atherosclerotic disease. To clarify the genetic role of MPO in HN, we examined the function and distribution of the -463G/A polymorphism located in the promoter region of the MPO gene with ex vivo flow cytometry analysis and a study in end-stage renal disease patients, respectively. This polymorphism has been reported to have a functional significance in vitro, with the A allele being associated with lower MPO expression. In the present study, we also found significantly higher reactive oxygen species (ROS) production with peripheral neutrophils isolated from subjects with the GG genotype compared with those from subjects with other genotypes by flow cytometry assay with 2-[6-(4'-amino) phenoxy-3H-xanthen-3-on-9-yl] benzoic acid (APF), which shows higher sensitivity with hypochlorite (OCl(-)). Genotyping the -463G/A polymorphism in HN, chronic glomerulonephritis (CGN) and diabetic nephropathy (DM) patients who were under hemodialysis treatment demonstrated that the GG genotype was more frequent in the HN group than in the CGN and DM groups. However, the distribution of the GG genotype in the HN group was similar to that in healthy individuals. Although the -463G/A polymorphism is associated with ROS production, careful interpretation may be required to conclude that the -463G/A polymorphism can serve as a useful marker of atherosclerosis and cardiovascular events in dialysis patients.
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PMID:Functional polymorphism of the myeloperoxidase gene in hypertensive nephrosclerosis dialysis patients. 1834 24

Myeloperoxidase (MPO) is a heme enzyme, released by activated leukocytes at sites of inflammation, which catalyzes the formation of the potent oxidant, hypochlorous acid (HOCl), from H2O2. HOCl is a key component of the inflammatory response and is bactericidal but has been linked with several human pathologies as a result of damage to host tissue. Elevated plasma MPO levels are a strong independent risk factor, and predictor of outcomes, for cardiovascular disease. Rate constants for reaction of HOCl with individual biological targets and the products of these reactions have been determined, but the targets of HOCl in complex biological fluids such as plasma are incompletely defined. In this study, rate constants (M(-1) s(-1)) for the reactions of ascorbate with HOCl (ca. 6 x 10(6)) and imidazole chloramine (7.7 x 10(4)) have been determined to supplement known kinetic parameters. HOCl-mediated oxidation of the major plasma protein, albumin, was investigated both experimentally and computationally; these approaches provide consistent data. The computational studies were extended to examine the fate of HOCl in plasma. The model predicts that plasma proteins consume the majority of HOCl with limited damage to other materials. Ascorbate or alpha-tocopherol, even at the levels achieved in human supplementation studies, do not attenuate these reactions. In contrast, elevated levels of thiocyanate ions (SCN(-)), as detected in heavy smokers, can modulate HOCl-mediated reactions as a result of the formation of the highly specific oxidant hypothiocyanous acid (HOSCN). These observations support the hypothesis that MPO-generated HOSCN is a key agent in smoking-enhanced atherosclerosis.
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PMID:What are the plasma targets of the oxidant hypochlorous acid? A kinetic modeling approach. 1932 2

Myeloperoxidase (MPO), a heme protein abundantly expressed and secreted by polymorphonuclear neutrophils (PMN), has emerged as a critical mediator in coronary atherosclerosis. Retrospective analyses have suggested that free plasma levels of MPO predict adverse outcome in patients with low troponin T (TnT) levels who subsequently experience myocardial injury. The aim of this study was to evaluate the time course of MPO plasma levels in the early stages of acute myocardial infarction (AMI). Of 155 consecutive patients hospitalized for acute coronary syndromes, 38 presenting within 2 h of the onset of symptoms and subsequently diagnosed for AMI were included in the study. Serial blood samples taken between 1 and 24 h after the onset of chest pain were analyzed for MPO, TnT, creatine kinase MB, myoglobin, and high sensitive C-reactive protein. Fifty patients with angiographically proven but stable coronary artery disease (CAD) served as controls. In contrast to all other investigated markers, MPO was markedly elevated within 2 h of symptom onset in patients with AMI. Heparin, which is known to increase MPO plasma levels in patients with stable CAD, had no effect on MPO plasma levels in AMI patients. High levels of MPO plasma levels at the time of admission and the rapid peak of free plasma MPO levels after the onset of symptoms suggests that PMN activation is an early event in AMI and potentially precedes myocardial injury.
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PMID:Neutrophil activation precedes myocardial injury in patients with acute myocardial infarction. 1936 43

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