Four-dimensional trapped ion mobility spectrometry proteomics reveals circulating extracellular vesicles encapsulated drivers of nasopharyngeal carcinoma distant dissemination

Nasopharyngeal carcinoma (NPC) is a head and neck cancer with a high propensity for early metastatic spread. Emerging evidence shows that extracellular vesicles (EVs) are key players in cancer metastasis, but their role in NPC metastasis remains poorly understood. We here present the first description of the proteomic and functional profiles of serum-derived circulating small EVs in metastatic NPC patients. To enhance the capture of low-abundance signaling proteins in EVs, timsTOF-based four-dimensional label-free quantitative proteomics was employed. We found that metastatic NPC patients (M-NPC-EVs) exhibited the highest serum EV levels compared to locoregional patients (L-NPC-EVs) and healthy subjects (Normal-EVs). The proteome of M-NPC-EVs differed substantially from L-NPC-EVs and was functionally enriched in pathways regulating cell polarity and motility, glucose metabolism, and angiogenesis. Functional assays testing individual EV samples demonstrated that M-NPC-EVs pronouncedly enhanced NPC cell migration, invasion, and the formation of lamellipodia and filopodia in vitro, and promoted angiogenesis in subcutaneous Matrigel plugs in vivo. In silico analyses suggested that PTPRA, TPI1 and GPI highly enriched in M-NPC-EVs were putative drivers underlying the motogenic and angiogenic activities of M-NPC-EVs, and their high expression levels were associated with a poor prognosis of NPC patients. The increased expression of PTPRA, TPI1 and GPI in M-NPC-EVs was then validated in an independent cohort consisting of 175 NPC patients (locoregional n = 114; metastatic n = 61). Together, utilizing patient-derived EVs, we mimicked the potential pro-metastatic functions of EVs in NPC patients in vitro and in vivo and provided novel insights into their bioactive cargoes.