Marie-Nicole Theodoraki (München; Ulm), Tzima Abou Kors (Ulm), Lutz Schütt (Ulm), Linda Hofmann (Ulm), Ramin Lotfi (Ulm), Barbara Wollenberg (München), Thomas Hoffmann (Ulm), Diana Huber (Ulm)
Background: Metastases are associated with poor survival in head and neck squamous cell carcinoma (HNSCC) patients and tumor-associated macrophages (TAMs) are important drivers in tumor progression and metastasis formation. Small extracellular vesicles (sEVs) are another important factor that contribute to systemic immunosuppression and pre-metastatic niche formation. Here, we investigate the effect of plasma sEVs from HNSCC patients on pre-metastatic niche formation, directly or through modulation of macrophages.
Methods: Primary macrophages were incubated with sEVs from plasma of HNSCC patients or healthy donors (HD). RNA profiles and inflammatory properties of macrophages were evaluated. Direct and indirect effects of sEVs on chemotaxis, T cell activation, proliferation and epithelial-to-mesenchymal transition (EMT) of tumor cells were investigated.
Results: sEVs of HNSCC patients and HD induced different RNA profiles in macrophages. sEVs induced apoptosis and inhibition of T cell activation, while tumor cells were attracted by sEV-treated macrophages, but not sEVs directly. Proliferation was inhibited by both, sEVs and supernatant of EV-treated macrophages in HNSCC. Additionally, EMT in tumor cells was reversed by HNSCC sEV-treated macrophages.
Conclusion: sEVs from plasma of HNSCC patients transformed macrophages into metastasis-promoting TAMs and inhibited anti-tumor T cells, highlighting the potential of sEVs and TAMs as targets for therapeutic approaches.
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