Enhancing the Tumor Selectivity of a Picornavirus Virotherapy Promotes Tumor Regression and the Accumulation of Infiltrating CD8+ T Cells.

Abstract

Picornaviruses have emerged as promising cancer therapies due to their ability to drive cytotoxic cellular immune responses and for promoting oncolysis. These properties include preferential replication in tumor cells, the induction of strong innate and adaptive immune responses, and the ease with which their genomes can be manipulated. We have developed Theiler's murine encephalomyelitis virus (TMEV) as an immunotherapy vector that promotes strong adaptive immune responses to tumor antigens embedded within its genome. To further explore its usefulness as cancer therapy, we investigated whether direct intratumoral delivery of TMEV could promote tumor regression. We generated several picornavirus hybrids using substrains of TMEV that have unique immunopathologic characteristics, despite their extensive sequence homology. These hybrids exhibit a unique propensity to infect and replicate in melanoma. We have identified GD7-KS1, a virus that is particularly effective at replicating and infecting B16 melanoma in vitro and provides benefit as an oncolytic therapy in vivo after intratumoral injection. In addition, this virus promotes the mobilization and accumulation of CD8(+) T cells within treated tumors. Altogether, these findings demonstrate that picornavirus substrains can be used to rationally design virus hybrids that promote antitumor responses and add to the known strategies identified by us and others to further enhance the therapeutic potential of vectors used to treat cancer.