UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Platelet-activating factor acetylhydrolase (PAF-AH) is a phospholipase A2 associated with lipoproteins that hydrolyzes platelet-activating factor (PAF) and oxidized phospholipids. We have developed an ELISA for PAF-AH that is more sensitive than previous methods, and have quantified HDL-associated and non-HDL-associated PAF-AH in healthy, hyperlipidemic, and diabetic subjects. In healthy subjects, plasma total PAF-AH concentration was positively correlated with PAF-AH activity and with plasma total cholesterol, triacylglycerol, LDL cholesterol and apolipoprotein B (apoB) concentrations (all P < 0.01). HDL-associated PAF-AH concentration was correlated positively with plasma apoA-I and HDL cholesterol. Subjects with hyperlipidemia (n = 73) and diabetes mellitus (n = 87) had higher HDL-associated PAF-AH concentrations than did controls (P < 0.01). Non-HDL-associated PAF-AH concentration was lower in diabetic subjects than in controls (P < 0.01). Both hyperlipidemic and diabetic subjects had lower ratios of PAF-AH to apoB (P < 0.01) and higher ratios of PAF-AH to apoA-I (P < 0.01) than did controls. Our results show that the distribution of PAF-AH mass between HDLs and LDLs is determined partly by the concentrations of the lipoproteins and partly by the mass of enzyme per lipoprotein particle, which is disturbed in hyperlipidemia and diabetes mellitus.
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PMID:Altered distribution of plasma PAF-AH between HDLs and other lipoproteins in hyperlipidemia and diabetes mellitus. 1286 34

Traditional risk factors for atherosclerosis are well known and their control decreases importantly the appearance of the disease. These factors are the genetic charge, dyslipidemia, smoking, systemic arterial hypertension, diabetes, obesity, gender, age, stress, estrogen levels in women, and life style. However, in the last decade, new risk factors have been identified especially for coronary and cerebrovascular atherosclerosis. Among these factors, the inflammatory process has been pointed out in which acute stage reactants participate, such as C-reactive protein, leukocyte count, globular sedimentation, multiple cytokines, alpha tumor necrosis factor, vascular and cellular adhesion molecules, some metalloproteinases, pregnancy-associated plasma protein A, lipoprotein-associated phospholipase A2, angiotensin II, and very probably infection. This article discusses the mechanism by which these markers participate in the atherosclerotic process and their value as predictors of future coronary events, as well as to what extent current therapeutics can contribute to decrease these events and to improve patient care.
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PMID:[Inflammation in atherosclerosis]. 1296 66

LDL (low-density lipoprotein) is the major carrier of cholesterol in human plasma, and as such is intimately involved in the process of atherosclerosis. The lipoprotein class comprises a number of distinct subfractions, and is commonly divided into large, intermediate and small sized particles. Small, dense LDLs are held to be particularly atherogenic, since these particles are retained preferentially by the artery wall, are readily oxidized and carry an enzyme believed to have an important role in atherosclerosis, i.e. lipoprotein-associated phospholipase A(2). Generation of small, dense LDL occurs by intravascular lipoprotein remodelling as a result of disturbances such as Type II diabetes, metabolic syndrome, renal disease and pre-eclampsia. The key predisposing factor is the development of hypertriglyceridaemia, in particular elevation in the plasma concentration of large, triacylglycerol-rich VLDL (very-low-density lipoprotein). This leads to the formation of slowly metabolized LDL particles (5-day residence time), which are subject to exchange processes that remove cholesteryl ester from the particle core and replace it with triacylglycerol. LDL, so altered, is a potential substrate for hepatic lipase; if the activity of the enzyme is high enough, lipolysis will generate smaller, denser particles. Correction of the dyslipidaemia associated with small, dense LDL is possible using fibrates and statins, and this may contribute to the clinical benefits seen with these drugs. Fibrates act to lower plasma triacylglycerol (VLDL) levels, and so correct the underlying metabolic disturbance. Statins remove VLDL particles via receptor-mediated pathways and reduce the residence time (and hence limit the potential for remodelling) of LDL in the circulation.
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PMID:Triacylglycerol-rich lipoproteins and the generation of small, dense low-density lipoprotein. 1450 81

The death of insulin-secreting beta-cells that causes type I diabetes mellitus (DM) occurs in part by apoptosis, and apoptosis also contributes to progressive beta-cell dysfunction in type II DM. Recent reports indicate that ER stress-induced apoptosis contributes to beta-cell loss in diabetes. Agents that deplete ER calcium levels induce beta-cell apoptosis by a process that is independent of increases in [Ca(2+)](i). Here we report that the SERCA inhibitor thapsigargin induces apoptosis in INS-1 insulinoma cells and that this is inhibited by a bromoenol lactone (BEL) inhibitor of group VIA calcium-independent phospholipase A(2) (iPLA(2)beta). Overexpression of iPLA(2)beta amplifies thapsigargin-induced apoptosis of INS-1 cells, and this is also suppressed by BEL. The magnitude of thapsigargin-induced INS-1 cell apoptosis correlates with the level of iPLA(2)beta expression in various cell lines, and apoptosis is associated with stimulation of iPLA(2)beta activity, perinuclear accumulation of iPLA(2)beta protein and activity, and caspase-3-catalyzed cleavage of full-length 84 kDa iPLA(2)beta to a 62 kDa product that associates with nuclei. Thapsigargin also induces ceramide accumulation in INS-1 cells, and this response is amplified in cells that overexpress iPLA(2)beta. These findings indicate that iPLA(2)beta participates in ER stress-induced apoptosis, a pathway that promotes beta-cell death in diabetes.
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PMID:Apoptosis of insulin-secreting cells induced by endoplasmic reticulum stress is amplified by overexpression of group VIA calcium-independent phospholipase A2 (iPLA2 beta) and suppressed by inhibition of iPLA2 beta. 1474 35

Cytosolic phospholipase A(2) (cPLA(2)) comprises a widely expressed family of enzymes, some members of which have the properties required of signal transduction elements in electrically excitable cells. Thus, alpha- and beta-isoforms of cPLA(2) are activated by the increases in intracellular Ca(2+) concentration ([Ca(2+)](i)) achieved in depolarized cells. Activation is associated with a redistribution of the enzyme within the cell; activation of cPLA(2) generates arachidonic acid (AA), a biologically active unsaturated fatty acid that can be further metabolized to generate a plethora of biologically active molecules. Studies using relatively nonselective pharmacological inhibitors have implicated cPLA(2) in insulin secretory responses to stimuli that elevate beta-cell [Ca(2+)](i); therefore, we have investigated the role of cPLA(2) in beta-cell function by generating beta-cell lines that under- or overexpress the alpha-isoform of cPLA(2). The functional phenotype of the modified cells was assessed by observation of cellular ultrastructure, by measuring insulin gene expression and insulin protein content, and by measuring the effects of insulin secretagogues on cPLA(2) distribution, on changes in [Ca(2+)](i), and on the rate and pattern of insulin secretion. Our results suggest that cPLA(2) is not required for the initiation of insulin secretion from beta-cells, but that it plays an important role in the maintenance of beta-cell insulin stores. Our data also demonstrate that excessive production of, or exposure to, AA is deleterious to normal beta-cell secretory function through metabolic dysfunction.
Diabetes 2004 Feb
PMID:The role of cytosolic phospholipase A(2) in insulin secretion. 1474 84

The beta-isoform of group VIA calcium-independent phospholipase A(2) (iPLA(2)beta) does not require calcium for activation, is stimulated by ATP, and is sensitive to inhibition by a bromoenol lactone suicide substrate. Several potential functions have been proposed for iPLA(2)beta. Our studies indicate that iPLA(2)beta is expressed in beta-cells and participates in glucose-stimulated insulin secretion but is not involved in membrane phospholipid remodeling. If iPLA(2)beta plays a signaling role in glucose-stimulated insulin secretion, then conditions that impair iPLA(2)beta functions might contribute to the diminished capacity of beta-cells to secrete insulin in response to glucose, which is a prominent characteristic of type 2 diabetes. Our recent studies suggest that iPLA(2)beta might also participate in beta-cell proliferation and apoptosis and that various phospholipid-derived mediators are involved in these processes. Detailed characterization of the iPLA(2)beta protein level reveals that beta-cells express multiple isoforms of the enzyme, and our studies involve the hypothesis that different isoforms have different functions.
Diabetes 2004 Feb
PMID:Islet complex lipids: involvement in the actions of group VIA calcium-independent phospholipase A(2) in beta-cells. 1474 85

Evidence that group VIA cytosolic calcium-independent phospholipase A(2) (iPLA(2)beta) participates in beta-cell signal transduction includes the observations that inhibition of iPLA(2)beta with the bromoenol lactone suicide substrate suppresses glucose-stimulated insulin secretion and that overexpression of iPLA(2)beta amplifies insulin secretory responses in INS-1 insulinoma cells. Immunofluorescence analyses also reveal that iPLA(2)beta accumulates in the perinuclear region of INS-1 cells stimulated with glucose and forskolin. To characterize this phenomenon further, iPLA(2)beta was expressed as a fusion protein with enhanced green fluorescent protein (EGFP) in INS-1 cells so that movements of iPLA(2)beta are reflected by changes in the subcellular distribution of green fluorescence. Stimulation of INS-1 cells overexpressing iPLA(2)beta-EGFP induced greater insulin secretion and punctate accumulation of iPLA(2)beta-EGFP fluorescence in the perinuclear region. To determine the identity of organelles with which iPLA(2)beta might associate, colocalization of green fluorescence with fluorophores associated with specific trackers targeted to different subcellular organelles was examined. Such analyses reveal association of iPLA(2)beta-EGFP fluorescence with the ER and Golgi compartments. Arachidonate-containing plasmenylethanolamine phospholipid species are abundant in beta-cell endoplasmic reticulum (ER) and are excellent substrates for iPLA(2)beta. Arachidonic acid produced by iPLA(2)beta-catalyzed hydrolysis of their substrates induces release of Ca(2+) from ER stores-an event thought to participate in glucose-stimulated insulin secretion.
Diabetes 2004 Feb
PMID:Beta-cell calcium-independent group VIA phospholipase A(2) (iPLA(2)beta): tracking iPLA(2)beta movements in response to stimulation with insulin secretagogues in INS-1 cells. 1474 86

During inflammation, several cell types synthesize and secrete phospholipase A2 that catalyses lipid oxidation in LDL. Myeloperoxidase, a haeme protein secreted by activated phagocytes, oxidizes L-tyrosine to a tyrosyl radical that is a physiological catalyst for the initiation of lipid oxidation in LDL. Lipid oxidation results in the generation of aldehydes that substitute lysine residues in the apolipoprotein B-100 moiety. Lipid together with protein oxidation in LDL results in the generation of oxidized LDL. We, among others, have demonstrated an association between coronary heart disease (CHD) and increased plasma levels of oxidized LDL. Recently, we have demonstrated a higher prevalence of elevated oxidized LDL in persons with high-calculated CHD risk prior to events. The odds of having elevated oxidized LDL for persons with high-calculated CHD risk prior to events were even higher than for persons with diagnosed CHD. A likely explanation is that once CHD has been diagnosed the patients are more treated with a statin that appears to decrease oxidized LDL even beyond its cholesterol-lowering effect. We have identified several metabolic syndrome components (high triglycerides, low HDL-cholesterol, glucose intolerance and diabetes) that independently of LDL-cholesterol, predicted high levels of oxidized LDL. Finally, elevated oxidized LDL predicted myocardial infarction in the Health ABC cohort consisting of well-functioning elderly people, even after adjusting for age, gender, race, smoking, and the metabolic syndrome.
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PMID:Oxidized LDL and coronary heart disease. 1552 50

We have generated MIN6 beta-cells that stably overexpress cytosolic phospholipase A(2) (cPLA(2)) and show a ninefold increase in cPLA(2) activity. Overexpression of cPLA(2) did not affect the capacity of MIN6 cells to show elevations in intracellular Ca(2+) concentration ([Ca(2+)](i)) in response to tolbutamide and KCl, and these depolarizing stimuli produced insulin secretion profiles in cPLA(2)-overexpressing cells similar to those they produced in passage-matched nontransfected MIN6 cells. However, cPLA(2)-overexpressing MIN6 cells did not respond to elevations in extracellular glucose with increases in ATP, [Ca(2+)](i), or insulin secretion. Nontransfected MIN6 cells showed a rapid and sustained increase in NAD(P)H autofluorescence in response to 25 mmol/l glucose, and this was reduced by approximately 95% in MIN6 cells overexpressing cPLA(2). This effect was mimicked in nontransfected MIN6 cells by p-(trifluoromethoxy) phenylylhydrazone, a mitochondrial uncoupler. Quantitative RT-PCR indicated that mRNA for uncoupling protein-2 (UCP-2) was increased in the cPLA(2)-overexpressing MIN6 cells, and this could be prevented by exposure to 100 mumol/l methyl arachidonyl fluorophosphate, a cPLA(2) inhibitor. Glucose caused a decrease in rhodamine 123 fluorescence in control cells, but not in those overexpressing cPLA(2), consistent with the transfected cells being unable to maintain mitochondrial proton gradients as a consequence of UCP-2 upregulation. Our data indicate that overexpression of cPLA(2) results in severe impairment of the calcium and secretory responses of beta-cells to glucose through upregulation of UCP-2 and uncoupling of mitochondrial metabolism from ATP generation.
Diabetes 2005 Jan
PMID:Uncoupling of nutrient metabolism from insulin secretion by overexpression of cytosolic phospholipase A(2). 1561 18

According to modern images and results of our observations the oxidative stress (OS) is a non-specific though certain component of pathogenesis at numerous diseased states of organism having in the basis the thoroughness of pathogenic disturbances of phospholipids (PL) metabolism and processes of their free radical oxidation (FRO), which takes place in the membrane formations of as the whole cell, as well as the mitochondrial and microsomal fractions (MCF and MSF) of the white rat brain, liver mitochondria, lung shadows, at the same time erythrocyte and lymphocyte shadows at brain acute edema, ischemia, reperfusion and desympathization, infarction of myocardium, tuberculosis of lungs, diabetes, Familial Mediterranean Fever (FMF), intoxications under halothane anaesthesia (HA) and with micotoxin zearalenon. The regularities observed promote to understand from the point of view of modern approaches the molecular mechanisms of initiation, development and generalization of factors for OS formation under pathologic conditions. It is more obvious at zearalenon intoxication with intensification of lipids FRO processes and failures in PL-PL ratio phenomena. The lymphocytes membranes of the white rats spleen subjected OS induced by zearalenon intoxication permit us conclude that the general immune status of the organism decreases. It is generally peculiar to the states under conditions of generalized intoxication. The observed increase of phospholipase A(2) activity induces the release of high concentrations of lysophosphatidylcholines (LPC) and non-etherified fatty acids (NEFA) of polyenic range with prevail of arachidonic acid as a pathogenic factor, namely, at modelling brain acute edema by tetraethylolovo to white rats. Formation of the above mentioned disturbances to some extent depends on hydrophobic properties of toxins, particularly, zearalenon. The latter gives certain tropism to dopamine-beta-monooxygenase (DBM), and ability to stimulate functional activity of the enzyme. Striking haemolytic properties of phospholipase A(2) induced by existence of LPC and NEFA high concentrations, and products of their peroxidation, promote elimination of separate protein fractions of erythrocyte membranes (EM) responsible for OS formation and decrease of erythrocytes resistance to peroxide hemolysis. Increase of DBM activity under the effect of relatively moderate doses of zearalenon (1-15 microg/ml) is accompanied with extra intensification of catecholamine synthesizing function of the organism with lethal result. Data of publications represented testify exceptional efficiency of sodium thiosulfate (STS) as a powerful synergist for endogenous factors of antioxidant effect, particularly alpha-tocopherol (alpha-T), which is the main component for the system of cell antiradical defence. Detoxicating effect of STS can be demonstrated indeed on the example of zearalenon intoxication during the first two hours with the reduction of metabolism disturbances of PL and products of its peroxidation. Comparative evaluation of molecular mechanisms of STS normalizing effect as a supplier for hydrogen and sulphur ions, as well as an effective synergist for alpha-T on the level of various formations of the live cell in compare with the effects of alpha-T and ubiquinone, allowed to make a special accent on the role of STS in interaction with energy-dependent enzymatic systems of cell antiradical defence, as well as accumulation and transformation of energy on the level of mitochondrial membranes. The results obtained by us confirm a number of clinical experimental observations, which demonstrate treatment and prophylactic role of STS at different pathologic states of the organism. STS protectory role at toxic injuries of the organism is higher at its preliminary introduction to the organism before modelling of the studied diseased states, especially at zearalenon and halothane (H) intoxication (in the last case before HA). These data serve a sound affirmation for protectory function of STS, detailed revelation of molecular properties of pathogenesis of the studied intoxication to which a part of our clinical and experimental studies at present is devoted.
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PMID:Oxidative stress in the molecular mechanism of pathogenesis at different diseased states of organism in clinics and experiment. 1572 Feb 41

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