Erythrocyte phospholipid and polyunsaturated fatty acid composition in diabetic retinopathy

Background: Long chain polyunsaturated fatty acids (LCPUFAs) including docosahexaenoic acid and arachidonic acid are suspected to play a key role in the pathogenesis of diabetes. LCPUFAs are known to be preferentially concentrated in specific phospholipids termed as plasmalogens. This study was aimed to highlight potential changes in the metabolism of phospholipids, and particularly plasmalogens, and LCPUFAs at various stages of diabetic retinopathy in humans. Methodology and Principal Findings: We performed lipidomic analyses on red blood cell membranes from controls and mainly type 2 diabetes mellitus patients with or without retinopathy. The fatty acid composition of erythrocytes was determined by gas chromatography and the phospholipid structure was determined by liquid chromatography equipped with an electrospray ionisation source and coupled with a tandem mass spectrometer (LC-ESI-MS/MS). A significant decrease in levels of docosahexaenoic acid and arachidonic acid in erythrocytes of diabetic patients with or without retinopathy was observed. The origin of this decrease was a loss of phosphatidyl-ethanolamine phospholipids esterified with these LCPUFAs. In diabetic patients without retinopathy, this change was balanced by an increase in the levels of several phosphatidyl-choline species. No influence of diabetes nor of diabetic retinopathy was observed on the concentrations of plasmalogen-type phospholipids. Conclusions and Significance: Diabetes and diabetic retinopathy were associated with a reduction of erythrocyte LCPUFAs in phosphatidyl-ethanolamines. The increase of the amounts of phosphatidyl-choline species in erythrocytes of diabetic patients without diabetic retinopathy might be a compensatory mechanism for the loss of LC-PUFA-rich phosphatidyl-ethanolamines

Odorant metabolism catalyzed by olfactory mucosal enzymes influences peripheral olfactory responses in rats.

International audienceA large set of xenobiotic-metabolizing enzymes (XMEs), such as the cytochrome P450 monooxygenases (CYPs), esterases and transferases, are highly expressed in mammalian olfactory mucosa (OM). These enzymes are known to catalyze the biotransformation of exogenous compounds to facilitate elimination. However, the functions of these enzymes in the olfactory epithelium are not clearly understood. In addition to protecting against inhaled toxic compounds, these enzymes could also metabolize odorant molecules, and thus modify their stimulating properties or inactivate them. In the present study, we investigated the in vitro biotransformation of odorant molecules in the rat OM and assessed the impact of this metabolism on peripheral olfactory responses. Rat OM was found to efficiently metabolize quinoline, coumarin and isoamyl acetate. Quinoline and coumarin are metabolized by CYPs whereas isoamyl acetate is hydrolyzed by carboxylesterases. Electro-olfactogram (EOG) recordings revealed that the hydroxylated metabolites derived from these odorants elicited lower olfactory response amplitudes than the parent molecules. We also observed that glucurono-conjugated derivatives induced no olfactory signal. Furthermore, we demonstrated that the local application of a CYP inhibitor on rat olfactory epithelium increased EOG responses elicited by quinoline and coumarin. Similarly, the application of a carboxylesterase inhibitor increased the EOG response elicited by isoamyl acetate. This increase in EOG amplitude provoked by XME inhibitors is likely due to enhanced olfactory sensory neuron activation in response to odorant accumulation. Taken together, these findings strongly suggest that biotransformation of odorant molecules by enzymes localized to the olfactory mucosa may change the odorant's stimulating properties and may facilitate the clearance of odorants to avoid receptor saturation

A new HPLC-ESI-MS/MS method to characterize and quantify phosphatidyl-choline with VLC-PUFA: Application to human retina

Purpose: Mutations in the ELOVL4 gene have been found in Stargardt-like macular dystrophy or STD3. Previous studies have shown that ELOVL4 is involved in the biosynthesis of very long chain polyunsaturated fatty acids (VLC-PUFA). The aim of this work was to develop a HPLC-ESI-MS/MS method of characterization and quantification of dipolyunsaturated phosphatidyl-choline (PC) molecular species containing VLC-PUFA and to apply it on retinas from human donors. Methods: Eyeballs were collected from calf as well as from nine human donors (body donation to Science). The neural retina was dissected from the RPE/choroid. Following lipid extraction, phosphorus content of total phospholipids was determined.Using a triple quadrupole MS instrument, PC molecular species were structurally characterized by collision-induced dissociation in the negative mode with a method based on normal-HPLC-ESIMS/MS. PC molecular species were then quantified using precursor ion scanning of m/z 184amu in the positive mode. Results: The characterization of PC species was done on bovine retinas. Among them, 28 were dipolyunsaturated PC species containing one VLC-PUFA (C24 to C36) with three to six double bonds. VLC-PUFA were always in the sn-1 position whilst PUFA at the sn-2 position was exclusively docosahexaenoic acid (DHA, C22:6.n-3). Most of these VLC-PUFA-containing dipolyunsaturated PC were detected and quantified in human retinas. The main represented compounds were those having VLC-PUFA of 32 carbon atoms (C32:3, C32:4, C32:5 and C32:6) and 34 carbon atoms (C34:3, C34:4, C34:5 and C34:6). Dipolyunsaturated PC with 36:5 and 36:6 were detected in lower quantities. Conclusions: This new HPLC-ESI-MS/MS method is sensitive and specific enough to structurally characterize and quantify all molecular species of PC, including those esterified with VLC-PUFA. This technique is valuable for a precise characterization of PC containingVLC-PUFA in retina and may be useful for better understanding their implication in the pathogenesis of STD3

Alpha synuclein determines ferroptosis sensitivity in dopaminergic neurons via modulation of ether-phospholipid membrane composition.

There is a continued unmet need for treatments that can slow Parkinson's disease progression due to the lack of understanding behind the molecular mechanisms underlying neurodegeneration. Since its discovery, ferroptosis has been implicated in several diseases and represents a therapeutic target in Parkinson's disease. Here, we use two highly relevant human dopaminergic neuronal models to show that endogenous levels of α-synuclein can determine the sensitivity of dopaminergic neurons to ferroptosis. We show that reducing α-synuclein expression in dopaminergic neurons leads to ferroptosis evasion, while elevated α-synuclein expression in patients' small-molecule-derived neuronal precursor cells with SNCA triplication causes an increased vulnerability to lipid peroxidation and ferroptosis. Lipid profiling reveals that ferroptosis resistance is due to a reduction in ether-linked phospholipids, required for ferroptosis, in neurons depleted of α-synuclein (α-syn). These results provide a molecular mechanism linking α-syn levels to the sensitivity of dopaminergic neurons to ferroptosis, suggesting potential therapeutic relevance

Lipid Composition of the Human Eye: Are Red Blood Cells a Good Mirror of Retinal and Optic Nerve Fatty Acids?

International audienceBACKGROUND: The assessment of blood lipids is very frequent in clinical research as it is assumed to reflect the lipid composition of peripheral tissues. Even well accepted such relationships have never been clearly established. This is particularly true in ophthalmology where the use of blood lipids has become very common following recent data linking lipid intake to ocular health and disease. In the present study, we wanted to determine in humans whether a lipidomic approach based on red blood cells could reveal associations between circulating and tissue lipid profiles. To check if the analytical sensitivity may be of importance in such analyses, we have used a double approach for lipidomics. METHODOLOGY AND PRINCIPAL FINDINGS: Red blood cells, retinas and optic nerves were collected from 9 human donors. The lipidomic analyses on tissues consisted in gas chromatography and liquid chromatography coupled to an electrospray ionization source-mass spectrometer (LC-ESI-MS). Gas chromatography did not reveal any relevant association between circulating and ocular fatty acids except for arachidonic acid whose circulating amounts were positively associated with its levels in the retina and in the optic nerve. In contrast, several significant associations emerged from LC-ESI-MS analyses. Particularly, lipid entities in red blood cells were positively or negatively associated with representative pools of retinal docosahexaenoic acid (DHA), retinal very-long chain polyunsaturated fatty acids (VLC-PUFA) or optic nerve plasmalogens. CONCLUSIONS AND SIGNIFICANCE: LC-ESI-MS is more appropriate than gas chromatography for lipidomics on red blood cells, and further extrapolation to ocular lipids. The several individual lipid species we have identified are good candidates to represent circulating biomarkers of ocular lipids. However, further investigation is needed before considering them as indexes of disease risk and before using them in clinical studies on optic nerve neuropathies or retinal diseases displaying photoreceptors degeneration

Les isomères monotrans de l'acide linoleique.Effets nutritionnels,synthèse, métabolisme

245 ref.*INRA, centre de Bordeaux (FRA) Diffusion du document : INRA, centre de Bordeaux (FRA) Diplôme : Dr. d'Universit

Isomères trans de l’acide a-linolénique et agrégation plaquettaire chez l’homme

Les principaux isomères trans de l’acide linolénique formés aux cours des traitements technologiques et thermiques sont les isomères 18 :3-9c,12c,15t,-9t,12c,15c et, à moindre taux, -9t,12c,15t. Ils sont présents dans des huiles raffinées, des huiles végétales partiellement hydrogénées et dans des produits frits, et sont par conséquent consommés par l’homme [1]. Ces isomères 18 :3-trans semblent suivre les mêmes voies de conversion que leur homologue naturel, le 18 :3n-3. En effet, un certain nombre d’études ont montré que les 18 :3-trans étaient allongés en acides gras à 20 et 22 atomes de carbone présentant des liaisons éthyléniques trans [2-5]. Aussi, ces isomères trans de l’acide éicosapentaénoïque (EPA) et de l’acide docosahexaénoïque (DHA) ont été retrouvés dans différentes classes de lipides de différents organes de rats ayant reçu pendant huit semaines un régime contenant 10 % d’huile de lin chauffée 12 heures à 275 °C [3-4, 6]. Cependant, une analyse quantitative de ces 20 :5-trans dans le foie de ces rats a révélé que l’isomère 20 :5-17t représentait 80 % de l’ensemble des isomères 20 :5-trans formés, alors que les isomères 20 :5-11t et -11t,17t ne représentaient que seulement 5 % [4, 5]. Ceci montre que l’isomère 18 :3-15t est converti en 20 :5-trans en quantité plus importante que ne le sont les 18 :3-9t et -9t,15t [7]. Chardigny et al., en 1993, ont montré que seuls les 20 :5-17t et 22 :6-19t issus du 18 :3-15t étaient présents dans les plaquettes sanguines humaines [8]

26-27 oct. : Journées du Réseau Français des Lipidomystes: Article de presse rédigé par L. Piquemal sur l'internet du Centre INRA de Dijon

Dans la foulée du 13ème Congrès International de Lipidomique du GERLI “ACIDES GRAS ET LIPOPOLYSACCHARIDES", le CSGA propose les Journées du Réseau Français des Lipidomystes. Les intervenants approfondiront les thèmes suivants : la chromatographie, l'analyse des acides gras, l'analyse des acides gras atypiques, la biophysique des membranes

Isomères trans de l'acide alpha-linolénique et agrégation plaquettaire chez l'homme

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