Spelling suggestions: "subject:"cytosolic phospholipase A2"" "subject:"sytosolic phospholipase A2""
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Cytosolic phospholipase A2 expression patterns in brain following the traumatic brain injuryYang, Shuangni 01 June 2010 (has links)
Indiana University-Purdue University Indianapolis (IUPUI)
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Role of Ceramide-1-Phosphate as a Specific and Potent Activator of Group IVA Cytosolic Phospholipase A2 AlphaSubramanian, Preeti 01 January 2007 (has links)
Eicosanoids are potent mediators of inflammatory response whose role has been well established in inflammatory disorders. Release of arachidonic acid by group IVA cytosolic phospholipase A2 α (cPLA2α) is the initial rate limiting step for the production of eicosonoids in response to inflammatory mediators. Previous findings from our laboratory have demonstrated that cPLA2α is directly activated by the emerging bioactive sphingolipid, ceramide-1-phosphate (C1P). In this study, we have developed a modified Triton X-100/phosphatidylcholine (PC) mixed micelle assay which was utilized to determine the kinetics and specificity of this lipid-enzyme interaction. Using this assay, the activity of the enzyme increased in a dose dependent manner with increasing amount of C1P in the mixed micelle and the stoichiometry of this interaction was found to be 2 molecules of C1P to achieve full activation. This activation was found to be lipid specific as other phospholipids such as PE, PS, PA, DAG, and S1P had insignificant effect on cPLA2α activity. Furthermore, based on previous studies we hypothesized that the specific interaction site for C1P was localized to the cationic β-groove (R57, K58, R59) of the C2 domain of cPLA2α. In this regard, mutants of this region of cPLA2α were generated ((R57A/K58A/R59A), (R57A/R59A), (K58A/R59A), (R57A/K58A), (R57A), (K58A), and (R59A)) and examined for C1P affinity by surface plasmon resonance (SPR). The triple, the double mutants, and the single mutant (R59A) demonstrated significantly reduced affinity for C1P containing vesicles compared to wild-type cPLA2α. Examining these five mutants for enzymatic activity demonstrated significant reduction in the ability of C1P to increase the Vmax of the reaction and significantly decreased the dissociation constant (KSA) of the reaction as compared to the wild-type enzyme. The mutational effect was specific for C1P as all of the cationic mutants of cPLA2α demonstrated normal basal activity as well as normal affinities for PC and PtdIns(4,5)P2 compared to wild-type cPLA2α. Finally, we demonstrated these amino acids were critical for translocation of cPLA2α in A549 lung adenocarcinoma cells in response to inflammatory agonists like A23187 and IL-1β. Lastly, we also demonstrated the mechanistic difference between activation of cPLA2α by the two anionic lipids, C1P and PI(4,5)P2.
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Ceramide Kinase and Ceramide-1-PhosphateWijesinghe, Dayanjan 21 November 2008 (has links)
Ceramide-1-phosphate (C1P) is a bioactive lipid that has been implicated in many biological processes. Our laboratory has conclusively demonstrated its role in inflammation via activation of cPLA2α. The only known enzyme to date responsible for direct synthesis of C1P is ceramide kinase. Very little was known about this enzyme in terms of its enzyme kinetics and substrate specificity. As CERK is an enzyme that acts on membrane lipids, its kinetics cannot be studied using standard bulk dilutions methods. Thus we developed a surface dilution approach using Triton X 100 mixed micelles for studying the kinetics of CERK. We discovered that ceramide kinase has an affinity for naturally occurring long chain ceramides while ceramides containing shorter than 8 carbons are very poor substrates for the enzyme. Also of note is the discovery that there is no discrimination between the naturally occurring long chain ceramides leading to the conclusion that the preponderance of D-e-C16 C1P in cells are due to an availability effect. We also investigated the chain length specificity of interaction between C1P and cPLA2α. Our data indicate that cPLA2α is activated by C1P’s containing acyl chains longer than two carbons. The study showed C2 C1P as being unable to activate cPLA2α thus establishing a tool for the investigation of cPLA2α dependent and independent effects of C1P. In the course of the study we investigated the ethanol/dodecane delivery system as a means of safely delivering lipids to cells. Our data conclusively demonstrate that this delivery system successfully delivers lipids to the internal membranes where their biological action takes place and that at low lipid concentration (<1µM), is non toxic to cells. A significant technical hurdle in the study of C1P was the lack of accurate and reproducible method of quantitatively and qualitatively analyzing the lipid. Using a mass spectrometric approach we developed an accurate technique that now allows us to quantify the lipids in cells. Using this and radiolabeling studies we discovered evidence for production of C1P from S1P via an acyl transferase pathway. Further studies are currently being carried out to identify the enzyme/s responsible for this pathway.
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Implication de la phospholipase A2 cytoplamique dans la pathogénèse de la maladie d'Alzheimer / Involvement of cytosolic phospholipase A2 in Alzheimer's disease pathogenesisDesbene, Cédric 12 November 2012 (has links)
Les oligomères solubles de peptide Bêta-amyloïde (A-bêta) apparaissent comme les acteurs majeurs de la perte synaptique précoce observée au cours de la maladie d'Alzheimer. Notre équipe a précédemment montré que ces oligomères de peptide A-bêta activent la phospholipase A2 cytosolique (cPLA2), qui entraîne la libération d'acide arachidonique à partir des phospholipides membranaires. En utilisant un modèle d'injection intra cérébro ventriculaire unique d'une faible quantité de peptide A-bêta, nous avons pu observer que l'inactivation constitutive du gène de la cPLA2 protége les souris KO contre les perturbations mnésiques et empêche la réduction de l'expression de protéines synaptiques au sein de l'hippocampe, ces deux effets délétères étant constatés chez les animaux wild-type. Par la suite, nous avons montré que l'activation des sphingomyélinases, consécutive à l'exposition aux oligomères A-bêta, est indétectable dans des neurones en culture issus de souris KO. Dans ces mêmes neurones KO, nous avons constaté que la phosphorylation de Akt/PKB n'est pas altérée suite à l'exposition des cellules aux oligomères A-bêta. Enfin, nous avons pu mettre en évidence une diminution de l'expression de la protéine précurseur du peptide A-bêta (protéine APP), tant au niveau d'homogénats hippocampiques que de neurones en cultures, issus de souris KO. Néanmoins, des travaux supplémentaires sont requis pour établir le lien exact entre cette réduction de l'expression d'APP et la résistance aux oligomères A-bêta, tant in vitro qu'in vivo. Toutefois, ces résultats soulignent l'implication de la cPLA2 dans la neuro dégénérescence entrainée par les oligomères A-bêta, et font apparaitre cette enzyme comme une cible thérapeutique potentielle pour le traitement de la maladie d'Alzheimer / Soluble beta-amyloid (A-beta) oligomers putatively play a critical role in the early synapse loss and cognitive impairment observed in Alzheimer's disease. We previously demonstrated that A-beta oligomers activate cytosolic phospholipase A2 (cPLA2) which specifically releases arachidonic acid from membrane phospholipids. By using a single A-beta oligomers intra cerebro ventricular injection, we observed that cPLA2 gene suppression prevents both the alterations of cognitive abilities and the reduction of hippocampal synaptic markers levels which are observed in wild type mice. We further demonstrated that the A-beta oligomers-induced sphingomyelinase activation is suppressed and that the phosphorylation of Akt/PKB is preserved in neuronal cells isolated from KO mice. Interestingly, expression of the A-beta precursor protein (APP) is reduced in hippocampus homogenates and neuronal cells from KO mice, but the relationship with the resistance of these mice to the A-beta oligomers toxicity requires further investigation. These results therefore show that cPLA2 plays a key role in the A-beta oligomers-associated neurodegenerative effects, and as such represents a potential therapeutic target for the treatment of Alzheimer's disease
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