Linoleic and linolenic acid hydroperoxides interact differentially with biomimetic plant membranes in a lipid specific manner.
Fiche publication
Date publication
décembre 2018
Journal
Colloids and surfaces. B, Biointerfaces
Auteurs
Membres identifiés du Cancéropôle Est :
Pr DAUCHEZ Manuel
Tous les auteurs :
Deleu M, Deboever E, Nasir MN, Crowet JM, Dauchez M, Ongena M, Jijakli H, Fauconnier ML, Lins L
Lien Pubmed
Résumé
Linoleic and linolenic acid hydroperoxides (HPOs) constitute key intermediate oxylipins playing an important role as signaling molecules during plant defense processes in response to biotic or abiotic stress. They have also been demonstrated in vitro as antimicrobial agents against plant fungi and bacteria. To reach the phytopathogens in vivo, the HPOs biosynthesized in the plant cells must cross the plant plasma membrane (PPM) where they can also interact with plasma membrane lipids and have an effect on their organization. In the present study, we have investigated the interaction properties of HPOs with PPM at a molecular level using biophysical tools combining in vitro and in silico approaches and using plant biomimetic lipid systems. Our results have shown that HPOs are able to interact with PPM lipids and perturb their lateral organization. Glucosylceramide (GluCer) is a privileged partner, sitosterol lessens their binding and the presence of both GluCer and sitosterol further reduces their interaction. Hydrophobic effect and polar interactions are involved in the binding. The chemical structure of HPOs influences their affinity for PPM lipids. The presence of three double bonds in the HPO molecule gives rise to a higher affinity comparatively to two double bonds, which can be explained by their differential interaction with the lipid polar headgroups.
Mots clés
Lipid specificity, Molecular interactions, Oxylipins, Plant membrane
Référence
Colloids Surf B Biointerfaces. 2018 Dec 7;175:384-391