VISTA targeting of T-cell quiescence and myeloid suppression overcomes adaptive resistance.
Evelien SchaafsmaWalburga CroteauMohamed A ElTanboulyElizabeth C NowakNicole C SmitsJie DengAurelien SardeCecilia A WebberDina RabadiChao ChengRandolph J NoelleJ Louise LinesPublished in: Cancer immunology research (2022)
VISTA is a premier target for cancer treatment due to its broad expression in many cancer types and enhanced expression upon development of adaptive immune checkpoint resistance. In the CT26 colorectal cancer model, monotherapy of small tumors with anti-VISTA resulted in slowed tumor growth. In a combination therapy setting, large CT26 tumors showed complete adaptive resistance to anti-PD-1/CTLA-4, but inclusion of anti-VISTA led to rejection of half the tumors. Mechanisms of enhanced anti-tumor immunity were investigated using scRNA-seq, multiplex image analysis and flow cytometry of the tumor immune infiltrate. In both treatment models, anti-VISTA upregulated stimulated antigen-presentation pathways and reduced myeloid mediated suppression. Imaging revealed an anti-VISTA stimulated increase in contacts between T cells and myeloid cells, further supporting the notion of increased antigen presentation. scRNA-seq of tumor-specific CD8+ T cells revealed that anti-VISTA therapy induced T-cell pathways highly distinct from and complementary to those induced by anti-PD-1 therapy. Whereas anti-CTLA-4/PD-1 expanded progenitor exhausted CD8+ T-cell subsets, anti-VISTA promoted costimulatory genes and reduced regulators of T-cell quiescence. Notably, this is the first report of a checkpoint regulator impacting CD8+ T-cell quiescence, and the first indication that quiescence may be a target in the context of T-cell exhaustion and in cancer. This study builds a foundation for all future studies on the role of anti-VISTA in the development of anti-tumor immunity and provide important mechanistic insights that strongly supports use of anti-VISTA to overcome the adaptive resistance seen in contemporary treatments involving PD-1 and/or CTLA-4.
Keyphrases
- combination therapy
- computed tomography
- bone marrow
- flow cytometry
- single cell
- dendritic cells
- genome wide
- magnetic resonance
- clinical trial
- transcription factor
- papillary thyroid
- stem cells
- contrast enhanced
- endothelial cells
- cell cycle
- mesenchymal stem cells
- image quality
- photodynamic therapy
- case report
- cell death
- high glucose
- replacement therapy
- single molecule
- peripheral blood
- squamous cell
- cell therapy
- fluorescence imaging
- pet ct