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Expression of tumor antigens within an oncolytic virus enhances the anti-tumor T cell response.

Mason James WebbThanich SangsuwannukulJacob van VlotenLaura EvginBenjamin KendallJason TonneJill ThompsonMuriel MetkoMadelyn MooreMaria P Chiriboga YeroviMichael OlinAntonella BorgattiMark McNivenSatdarshan Paul MongaMitesh J BoradAlan A MelcherLewis Rowland RobertsRichard G Vile
Published in: Nature communications (2024)
Although patients benefit from immune checkpoint inhibition (ICI) therapy in a broad variety of tumors, resistance may arise from immune suppressive tumor microenvironments (TME), which is particularly true of hepatocellular carcinoma (HCC). Since oncolytic viruses (OV) can generate a highly immune-infiltrated, inflammatory TME, OVs could potentially restore ICI responsiveness via recruitment, priming, and activation of anti-tumor T cells. Here we find that on the contrary, an oncolytic vesicular stomatitis virus, expressing interferon-ß (VSV-IFNß), antagonizes the effect of anti-PD-L1 therapy in a partially anti-PD-L1-responsive model of HCC. Cytometry by Time of Flight shows that VSV-IFNß expands dominant anti-viral effector CD8 T cells with concomitant relative disappearance of anti-tumor T cell populations, which are the target of anti-PD-L1. However, by expressing a range of HCC tumor antigens within VSV, combination OV and anti-PD-L1 therapeutic benefit could be restored. Our data provide a cautionary message for the use of highly immunogenic viruses as tumor-specific immune-therapeutics by showing that dominant anti-viral T cell responses can inhibit sub-dominant anti-tumor T cell responses. However, through encoding tumor antigens within the virus, oncolytic virotherapy can generate anti-tumor T cell populations upon which immune checkpoint blockade can effectively work.
Keyphrases
  • dendritic cells
  • sars cov
  • single cell
  • machine learning
  • oxidative stress
  • regulatory t cells
  • small molecule
  • binding protein
  • prognostic factors