Extracellular vesicle‐associated organotropic metastasis

Metastasis refers to the progressive dissemination of primary tumour cells and their colonization of other tissues and is associated with most cancer‐related mortalities. The disproportional and systematic distribution pattern of distant metastasis in different cancers has been well documented, as is termed metastatic organotropism, a process orchestrated by a combination of anatomical, pathophysiological, genetic and biochemical factors. Extracellular vesicles (EVs), nanosized cell‐derived membrane‐bound particles known to mediate intercellular communication, are now considered crucial in organ‐specific metastasis. Here, we review and summarize recent findings regarding EV‐associated organotropic metastasis as well as some of the general mechanisms by which EVs contribute to this important process in cancer and provide a future perspective on this emerging topic. We highlight studies that demonstrate a role of tumour‐derived EVs in organotropic metastasis via pre‐metastatic niche modulation. The bioactive cargo carried by EVs is of diagnostic and prognostic values, and counteracting the functions of such EVs may be a novel therapeutic strategy targeting metastasis. Further investigations are warranted to better understand the functions and mechanisms of EVs in organotropic metastasis and accelerate the relevant clinical translation. Extracellular vesicles (EVs) mediate organotropic metastasis mainly through pre‐metastatic niche modulation. Primary tumour cells disseminate EVs, which can travel to distant metastatic sites and modulate resident or stroma cells in the pre‐metastatic microenvironment through various pathways and prepare a favourable pre‐metastatic niche.