Exosomes associated with human ovarian tumors harbor a reversible checkpoint of T cell responses.

Nano-sized membrane-encapsulated extracellular vesicles isolated from the ascites fluids of ovarian cancer patients are identified as exosomes based on their biophysical and compositional characteristics. We report here that T cells pulsed with these tumor-associated exosomes during TCR-dependent activation inhibit various activation endpoints including translocation of NFkB and NFAT into the nucleus, upregulation of CD69 and CD107a, production of cytokines, and cell proliferation. In addition, the activation of virus-specific CD8(+) T cells that are stimulated with the cognate viral peptides presented in the context of class I MHC is also suppressed by the exosomes. The inhibition occurs without loss of cell viability and coincidentally with the binding and internalization of these exosomes. This exosome-mediated inhibition of T cells was transient and reversible: T cells exposed to exosomes can be reactivated once exosomes are removed. We conclude that tumor-associated exosomes are immunosuppressive and represent a therapeutic target, blockade of which would enhance the antitumor response of quiescent tumor-associated T cells and prevent the functional arrest of adoptively transferred tumor-specific T cells or chimeric antigen receptor T cells. (C) 2018 AACR.