Multi-omics discovery of hallmark protein and lipid features of circulating small extracellular vesicles in humans

Extracellular vesicles (EVs) are now being increasingly recognized as an essential signaling entity in human plasma, linking them to health and various diseases. Still, their core protein and lipid componentry, which lie at the center of EV form and function, remains poorly defined. Achieving this unmet milestone remains greatly hindered by abundant non-vesicular extracellular plasma components (non-EVs) in mass spectrometry-based analyses. Here, we performed high-resolution density gradient fractionation of over 110 human plasma samples to isolate circulating EVs, and systematically construct their quantitative proteome (4500 proteins) and lipidome (829 lipids) landscapes. This led to the discovery of a highly conserved panel of 182 proteins (ADAM10, STEAP23, STX7) and 52 lipids (PS, PIPs, Hex2Cer, PAs), providing a deep survey of hallmark molecular features and biological pathways intrinsic to circulating EVs. Our efforts also mapped the surfaceome diversity, identifying 151 proteins on EV surface. We further establish a set of 42 proteins and 114 lipids features that served as hallmark features of non-EV particles in plasma. We submit ADAM10 and PS(36:1) as conserved EV biological markers that precisely differentiates between EV and non-EV particles. Our findings, which can be explored via open-source Shiny web tool ( evmap.shinyapps.io/evmap/ ) will serve as a valuable repository to the research community for a clearer understanding of circulating EV biology.