Abstract
Immunosuppression at tumor microenvironment (TME) is one of the major obstacles to be overcome for an effective therapeutic intervention against solid tumors. Tumor-associated macrophages (TAMs) comprise a sub-population that plays multiple pro-tumoral roles in tumor development including general immunosuppression, which can be identified in terms of high expression of mannose receptor (MR or CD206). Immunosuppressive TAMs, like other macrophage sub-populations, display functional plasticity that allows them to be re-programmed to inflammatory macrophages. In order to mitigate immunosuppression at the TME, several efforts are ongoing to effectively re-educate pro-tumoral TAMs. Extracellular vesicles (EVs), released by both normal and tumor cells types, are emerging as key mediators of the cell to cell communication and have been shown to have a role in the modulation of immune responses in the TME. Recent studies demonstrated the enrichment of high mannose glycans on the surface of small EVs (sEVs), a subtype of EVs of endosomal origin of 30–150 nm in diameter. This characteristic renders sEVs an ideal tool for the delivery of therapeutic molecules into MR/CD206-expressing TAMs. In this review, we report the most recent literature data highlighting the critical role of TAMs in tumor development, as well as the experimental evidences that has emerged from the biochemical characterization of sEV membranes. In addition, we propose an original way to target immunosuppressive TAMs at the TME by endogenously engineered sEVs for a new therapeutic approach against solid tumors.
Highlights
Both immunosuppression and genetic escape are formidable weapons through which tumors can elude host immune surveillance
Socri.m20a2l0,a2n1,dx tumor cells constitutively release membrane-bilayered vesicles, com2moof 2n0ly referred to as extracellular vesicles (EVs) [3,4]
They differ in the mechanisms of biogenesis and secrseetciroenti,ogni,vginivginrgisreisteo ttohethgeegneenreartaiotinonofoaf ahheteeteroroggeenneeoouussppooppulation ooff vveessiicclleesswwitihthddififffereernent stisziezses andancodnctoennttesn[t5s,6[5],6w], hwichhichinicnluclduedesmsmalalllEEVVss(s(sEEVVss)) oorr eexxoossomes aanndd mmiiccrroovveessicilcelsesororecetcotsoosmomese. s
Summary
Both immunosuppression and genetic escape are formidable weapons through which tumors can elude host immune surveillance. Solid tumors develop in a quite complex context, referred to as tumor microenvironment (TME) [1,2], which is composed of both cellular and non-cellular elements, usually resulting in an immunosuppressive behavior. Counteracting such a general effect would favor both spontaneous and therapeutic anti-tumor immunity, critically contributing to control tumor cell growth. Socri.m20a2l0,a2n1,dx tumor cells constitutively release membrane-bilayered vesicles, com2moof 2n0ly referred to as extracellular vesicles (EVs) [3,4] They differ in the mechanisms of biogenesis and secrseetciroenti,ogni,vginivginrgisreisteo ttohethgeegneenreartaiotinonofoaf ahheteeteroroggeenneeoouussppooppulation ooff vveessiicclleesswwitihthddififffereernent stisziezses andancodnctoennttesn[t5s,6[5],6w], hwichhichinicnluclduedesmsmalalllEEVVss(s(sEEVVss)) oorr eexxoossomes aanndd mmiiccrroovveessicilcelsesororecetcotsoosmomese.
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