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Two separate mechanisms are involved in membrane permeabilization during lipid oxidation

Xie, Min;Koch, Eveline H.W.;van Walree, Cornelis A.;Sobota, Ana;Lorent, Joseph;et.al.
(2023) Biophysical Journal — Vol. 122, n° 23, p. 4503-4517 (2023)

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  • Xie, Minorcid-logo
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  • Koch, Eveline H.W.
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  • van Walree, Cornelis A.
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  • Sobota, Ana
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  • Lorent, Josephorcid-logoUCLouvain
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Abstract
Lipid oxidation is a universal degradative process of cell membrane lipids that is induced by oxidative stress and reactive oxygen and nitrogen species (RONS) in multiple pathophysiological situations. It has been shown that certain oxidized lipids alter membrane properties, leading to a loss of membrane function. Alteration of membrane properties is thought to depend on the initial membrane lipid composition, such as the number of acyl chain unsaturations. However, it is unclear how oxidative damage is related to biophysical properties of membranes. We therefore set out to quantify lipid oxidation through various analytical methods and determine key biophysical membrane parameters using model membranes containing lipids with different degrees of lipid unsaturation. As source for RONS we used cold plasma that is currently developed as treatment for infections and cancer. Our data revealed complex lipid oxidation that can lead to two main permeabilization mechanisms. The first one appears upon direct contact of membranes with RONS and depends on the formation of truncated oxidized phospholipids. These lipids seem to be partly released from the bilayer, implying that they are likely to interact with other membranes and potentially act as signaling molecules. This mechanism is independent of lipid unsaturation, does not rely on large variations in lipid packing and is most probably mediated via short-living RONS. The second mechanism overtakes after longer incubation periods and depends probably on the continued formation of lipid oxygen adducts such as lipid hydroperoxides or ketones. This mechanism depends on lipid unsaturation and involves large variations in lipid packing. This study indicates that polyunsaturated lipids, that are present in mammalian membranes rather than in bacteria, do not sensitize membranes to instant permeabilization by RONS but could promote long term damage.
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Xie, M., Koch, E. H. W., van Walree, C. A., Sobota, A., Sonnen, A. F. P., Breukink, E., Killian, J. A., & Lorent, J. (2023). Two separate mechanisms are involved in membrane permeabilization during lipid oxidation. Biophysical Journal, 122(23), 4503-4517. https://doi.org/10.1016/j.bpj.2023.10.028 (Original work published 2023)