Abstract

Biomimetic systems such as giant unilamellar vesicles (GUVs) are increasingly used for studying protein/lipid interactions due to their size (similar to that of cells) and to their ease of observation by light microscopy techniques. Biophysicists have begun to complexify GUVs to investigate lipid/protein interactions. In particular, composite GUVs have been designed that incorporate lipids that play important physiological roles in cellulo, such as phosphoinositides and among those the most abundant one, phosphatidylinositol(4,5)bisphosphate (PIP 2). Fluorescent lipids are often used as tracers to observe GUV membranes by microscopy but they can not bring quantitative information about the insertion of unlabeled lipids. In this study, we carried out ζ-potential measurements to prove the effective incorporation of PIP 2 as well as that of phosphatidylserine in the membrane of GUVs prepared by electroformation and to follow the stability of PIP 2-containing GUVs. Using confocal microscopy, we found that long-chain (C16) fluorescent PIP 2 analogs used as tracers (0.1% of total lipids) show a uniform distribution in the membrane whereas PIP 2 antibodies show PIP 2 clustering. However, the clustering effect, which is emphasized when tertiary antibodies are used in addition to secondary ones to enhance the size of the detection complex, is artifactual. We showed that divalent ions (Ca 2+ and Mg 2+) can induce aggregation of PIP 2 in the membrane depending on their concentration. Finally, the interaction of ezrin with PIP 2-containing GUVs was investigated. Using either labeled ezrin and unlabeled GUVs or both labeled ezrin and GUVs, we showed that clusters of PIP 2 and proteins are formed.

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