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Combination of NKG2A and PD-1 Blockade Improves Radiotherapy Response in Radioresistant Tumors

Nicholas Battaglia, Joseph D. Murphy, Taylor P. Uccello, Angela Hughson, Nicholas W Gavras, Johnathan J. Caldon, Scott A. Gerber, Edith M. Lord

2022The Journal of Immunology24 citationsDOIOpen Access PDF

Abstract

Abstract Radiotherapy (RT) is commonly employed to treat solid tumors. Immune checkpoint blockade of programmed cell death protein 1 (PD-1) and CTLA-4 improves survival in RT patients, yet many fail to respond to combination therapy. Natural killer group 2 (NKG2) family receptors, particularly inhibitory NKG2A and activating NKG2D, have emerged as promising therapeutic targets to improve antitumor T cell responses; thus, we examined how these receptors and their ligands (Qa-1b and retinoic acid early inducible 1 [Rae-1], respectively) regulate the RT response in C57BL/6 mice bearing syngeneic B16F10 melanoma and MC38 colorectal adenocarcinoma tumors. RT (15 Gy) transiently reduced B16F10 tumor burden, whereas MC38 tumors exhibited durable response to RT. Intratumoral NK and CD8 T cells expressed NKG2A and NKG2D in both models, which was unaltered by RT. In vitro/in vivo RT increased tumor/stromal cell Qa-1b and Rae-1 expression in both models, especially B16F10 tumors, but IFN-γ stimulation induced both Qa-1b and Rae-1 only in B16F10 tumors. NKG2A/Qa-1b inhibition alone did not improve RT response in either model, but combined RT and NKG2A/PD-1 blockade improved survival in the B16F10 model. Depletion experiments indicate that the triple therapy efficacy is CD8 T cell–dependent with negligible NK cell contribution. RNA sequencing of CD8 T cells from triple therapy–treated B16F10 tumors showed increased proliferative capacity compared with RT and PD-1 blockade alone. Our work demonstrates that RT modulates NKG2A ligand expression, which inhibits RT-induced T cell responses in tumors that fail to respond to combined RT and PD-1 blockade. These results provide a rationale for combining NKG2A blockade with immune checkpoint blockade therapies and RT to improve clinical response.

Topics & Concepts

Cancer researchNKG2DRadioresistanceCD8BlockadeImmune checkpointStromal cellT cellMedicineImmunotherapyImmune systemChemistryReceptorRadiation therapyImmunologyCytotoxic T cellIn vitroInternal medicineBiochemistryImmune Cell Function and InteractionCancer Immunotherapy and BiomarkersCAR-T cell therapy research
Combination of NKG2A and PD-1 Blockade Improves Radiotherapy Response in Radioresistant Tumors | Litcius