Journal
NUTRIENTS
Volume 14, Issue 7, Pages -Publisher
MDPI
DOI: 10.3390/nu14071319
Keywords
extracellular vesicles; quantitative lipidomics; eicosanoids; pre-analytics
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Funding
- Deutsche Forschungsgemeinschaft (DFG) [HE 8088/1-1]
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This study improved a quantitative mass spectrometry method and successfully applied it to the lipidomic analysis of differently polarized macrophage-derived EVs. The study found that freeze-thaw cycles had a significant impact on EV lipid profiles, and the polarization of EVs also resulted in changes in lipid profiles. Therefore, a standardized sample pretreatment protocol is crucial for the analysis of bioactive lipids in EVs.
Lipids are increasingly recognized as bioactive mediators of extracellular vesicle (EV) functions. However, while EV proteins and nucleic acids are well described, EV lipids are insufficiently understood due to lack of adequate quantitative methods. We adapted an established targeted and quantitative mass spectrometry (LC-MS/MS) method originally developed for analysis of 94 eicosanoids and seven polyunsaturated fatty acids (PUFA) in human plasma. Additionally, the influence of freeze-thaw (FT) cycles, injection volume, and extraction solvent were investigated. The modified protocol was applied to lipidomic analysis of differently polarized macrophage-derived EVs. We successfully quantified three PUFAs and eight eicosanoids within EVs. Lipid extraction showed reproducible PUFA and eicosanoid patterns. We found a particularly high impact of FT cycles on EV lipid profiles, with significant reductions of up to 70%. Thus, repeated FT will markedly influence analytical results and may alter EV functions, emphasizing the importance of a standardized sample pretreatment protocol for the analysis of bioactive lipids in EVs. EV lipid profiles differed largely depending on the polarization of the originating macrophages. Particularly, we observed major changes in the arachidonic acid pathway. We emphasize the importance of a standardized sample pretreatment protocol for the analysis of bioactive lipids in EVs.
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