Combination viroimmunotherapy with checkpoint inhibition to treat glioma, based on location-specific tumor profiling.

Neuro Oncol

Leeds Institute of Cancer Studies and Pathology, University of Leeds, Leeds, UK (J.V.C., S.S., P.S., E.I., A.M., R.V.); Department of Immunology, Mayo Clinic, Rochester, Minnesota (K.R., S.Z., T.K., J.T., R.M.D., K.S., R.V.); Division of Cancer Biology, The Institute of Cancer Research, Chester Beatty Laboratories, London, UK (S.Z., R.V.); Department of Neurologic Surgery, Mayo Clinic, Rochester, Minnesota (T.P., I.F.P.).

Published: April 2016

Background: Systemic delivery of a complementary cDNA library expressed from the vesicular stomatitis virus (VSV) treats tumors by vaccinating against a wide range of tumor associated antigens (TAAs). For subcutaneous B16 melanomas, therapy was achieved using a specific combination of self-TAAs (neuroblastoma-Ras, cytochrome c, and tyrosinase-related protein 1) expressed from VSV. However, for intracranial B16 tumors, a different combination was therapeutic (consisting of VSV-expressed hypoxia-inducible factor [HIF]-2α, Sox-10, c-Myc, and tyrosinase-related protein 1). Therefore, we tested the hypothesis that tumors of different histological types growing in the brain share a common immunogenic signature which can be exploited for immunotherapy.

Methods: Syngeneic tumors, including GL261 gliomas, in the brains of immune competent mice were analyzed for their antigenic profiles or were treated with systemic viroimmunotherapy.

Results: Several different histological types of tumors growing intracranially, as well as freshly resected human brain tumor explants, expressed a HIF-2α(Hi) phenotype imposed by brain-derived CD11b+ cells. This location-specific antigen expression was exploited therapeutically against intracranial GL261 gliomas using systemically delivered VSV expressing HIF-2α, Sox-10, and c-Myc. Viroimmunotherapy was enhanced by immune checkpoint inhibitors, associated with the de-repression of antitumor T-helper cell type 1 (Th1) interferon-γ and Th17 T cell responses.

Conclusions: Since different tumor types growing in the same location in the brain share a location-specific phenotype, we suggest that antigen-specific immunotherapies should be based upon expression of both histological type-specific tumor antigens and location-specific antigens. Our findings support clinical application of VSV-TAA therapy with checkpoint inhibition for aggressive brain tumors and highlight the importance of the intracranial microenvironment in sculpting a location-specific profile of tumor antigen expression.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4799678PMC
http://dx.doi.org/10.1093/neuonc/nov173DOI Listing

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