摘要:SummarySmall extracellular vesicles (sEVs) are important mediators of intercellular communication with respect to diverse pathophysiological processes. Here, we determined novel phosphatidylserine (PS)-deficient sEV subpopulations as a major somatic cell-derived sEV subpopulation in blood because of long blood circulation half-life through escape from macrophage uptake. PS(−)-sEVs were identified in various cultured cells as a minor population. However, as a result of rapid uptake of PS(+)-sEVs by macrophages, circulating somatic cell-derived sEVs in the blood were found to be mainly PS(−)-sEVs. These results suggest that endogenous PS(−)-sEVs could indeed be the key player in sEV-mediated intercellular communication, a good target for sEV-based diagnosis, and a potent candidate for sEV-based drug delivery. Our findings bring a paradigm shift in the understanding of the biology and translational applications of sEVs.Graphical abstractDisplay OmittedHighlights•PS(−)-sEV was found in various cell line and in plasma•PS(−)-sEV showed extremely long blood retention time•PS(−)-sEVs could indeed be important in sEV-mediated intercellular communicationMolecular physiology; Cell biology; Proteomics
