PD-L1 in tumor microenvironment mediates resistance to oncolytic immunotherapy
Dmitriy Zamarin, Jacob M. Ricca, Svetlana Sadekova, Anton Oseledchyk, Ying Yu, Wendy M. Blumenschein, Jerelyn Wong, Mathieu Gigoux, Taha Merghoub, Jedd D. Wolchok
Dmitriy Zamarin, Jacob M. Ricca, Svetlana Sadekova, Anton Oseledchyk, Ying Yu, Wendy M. Blumenschein, Jerelyn Wong, Mathieu Gigoux, Taha Merghoub, Jedd D. Wolchok
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Research Article Immunology Oncology

PD-L1 in tumor microenvironment mediates resistance to oncolytic immunotherapy

Abstract

Intralesional therapy with oncolytic viruses (OVs) leads to the activation of local and systemic immune pathways, which may present targets for further combinatorial therapies. Here, we used human tumor histocultures as well as syngeneic tumor models treated with Newcastle disease virus (NDV) to identify a range of immune targets upregulated with OV treatment. Despite tumor infiltration of effector T lymphocytes in response to NDV, there was ongoing inhibition through programmed death ligand 1 (PD-L1), acting as a mechanism of early and late adaptive immune resistance to the type I IFN response and T cell infiltration, respectively. Systemic therapeutic targeting of programmed cell death receptor 1 (PD-1) or PD-L1 in combination with intratumoral NDV resulted in the rejection of both treated and distant tumors. These findings have implications for the timing of PD-1/PD-L1 blockade in conjunction with OV therapy and highlight the importance of understanding the adaptive mechanisms of immune resistance to specific OVs for the rational design of combinatorial approaches using these agents.

Authors

Dmitriy Zamarin, Jacob M. Ricca, Svetlana Sadekova, Anton Oseledchyk, Ying Yu, Wendy M. Blumenschein, Jerelyn Wong, Mathieu Gigoux, Taha Merghoub, Jedd D. Wolchok

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Figure 2

NDV upregulates immune-inhibitory pathways in tumors.

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NDV upregulates immune-inhibitory pathways in tumors. (A) Gene expressio...
(A) Gene expression profiling of the treated and distant tumors analyzed on the NanoString platform. (B and C) Correlation of expression of Tbet versus PDCD1 (B) and Tbet versus LAG3 (C) in the treated (left) and distant (right) tumors, as determined by NanoString. (D and E) Expansion of GrB+PD-1 lymphocytes in response to NDV therapy in distant tumors. (D) Representative flow cytometric plots. (E) Grouped plot of all samples. (F) Expression of activation (ICOS), lytic (GrB+), and proliferation (Ki-67) markers by the CD8+ and Tcon lymphocytes from distant tumors as determined by flow cytometry. Results are representative of 2 independent experiments, with 5 to 10 animals per group, and data represent the mean ± SEM. Data were analyzed using the NanoString Advanced Analysis module for differential expression with the Benjamini-Yekutieli P value adjustment method (A), Pearson’s correlation (B and C), 1-way ANOVA with multiple comparisons (E), and Student’s t test for individual comparisons (F). *P < 0.05, **P < 0.01, ***P < 0.001, and ****P < 0.0001.