Sequential JAK inhibition enhances antitumor immunity after combined anti–PD-1 and anti-CTLA4
Marcel Arias-Badia, PeiXi Chen, Yee May Lwin, Aahir Srinath, Aram Lyu, Zenghua Fan, Serena S. Kwek, Diamond N. Luong, Ali Setayesh, Mason Sakamoto, Matthew Clark, Averey Lea, Rachel M. Wolters, Andrew Goodearl, Fiona A. Harding, Jacob V. Gorman, Wendy Ritacco, Lawrence Fong
Marcel Arias-Badia, PeiXi Chen, Yee May Lwin, Aahir Srinath, Aram Lyu, Zenghua Fan, Serena S. Kwek, Diamond N. Luong, Ali Setayesh, Mason Sakamoto, Matthew Clark, Averey Lea, Rachel M. Wolters, Andrew Goodearl, Fiona A. Harding, Jacob V. Gorman, Wendy Ritacco, Lawrence Fong
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Research Article Immunology Oncology

Sequential JAK inhibition enhances antitumor immunity after combined anti–PD-1 and anti-CTLA4

Abstract

While immune checkpoint inhibition (CPI) has reshaped cancer treatment, the majority of patients with cancer do not benefit from this approach, which can also cause immune-related adverse events. Induction of IFN-γ responses is thought be necessary for antitumor immunity, but growing evidence also implicates IFN-γ as a tumor-intrinsic mediator of CPI resistance. CPI-induced IFN-γ mediates activation-induced cell death in T cells as an immune-intrinsic mechanism of resistance. In this study, we found that transient block of IFN-γ signaling through administration of the JAK1 inhibitor ABT-317 enhanced antitumor T cell responses with CPI in preclinical models. Importantly, sequential but not concomitant ABT-317 treatment led to significantly reduced toxicity and improved tumor efficacy. Sequential treatment reduced activation-induced T cell death and enhanced expansion of tumor-reactive T cell subsets with increased effector function in vivo and ex vivo. Only CPI in combination with ABT-317 also enhanced memory responses by protecting mice from tumor rechallenge. These results demonstrate that JAK inhibition within a discrete time window following CPI addresses an immune-intrinsic mechanism of therapeutic resistance.

Authors

Marcel Arias-Badia, PeiXi Chen, Yee May Lwin, Aahir Srinath, Aram Lyu, Zenghua Fan, Serena S. Kwek, Diamond N. Luong, Ali Setayesh, Mason Sakamoto, Matthew Clark, Averey Lea, Rachel M. Wolters, Andrew Goodearl, Fiona A. Harding, Jacob V. Gorman, Wendy Ritacco, Lawrence Fong

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Figure 5

ABT-317 provides protective immunological memory against tumor rechallenge in mice treated with CPI.

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ABT-317 provides protective immunological memory against tumor rechallen...
(A) Tumor rechallenge experiment design. Briefly, tumor-free animals from n = 2 studies (see Methods) described in Figure 2A were challenged with a second round of either 1M related TRAMP-C2 or 1M unrelated mouse colorectal MC38 tumor cells on their left flanks. TDLNs were harvested and analyzed by flow cytometry on day 40 (MC38) or day 85 (TRAMP-C2). (B) Tumor volume curves for implantations described in A: second challenge of TRAMP-C2 (left) or unrelated MC38 (right). *, P < 0.05 CPI vs. CPI + ABT-317 (20 mg) by 1-way ANOVA applying Kruskal-Wallis; #, P < 0.05 CPI vs. CPI + ABT-317 (20 and 5 mg) by 1-way ANOVA applying Kruskal-Wallis. Error bars represent SEM. (C) Percentage of CD44+CD62L TDLN T cells by flow cytometry from TRAMP-C2 rechallenged mice involved in the study described in A, split into CD4+ and CD8+ compartments. Significant P values obtained by 1-way ANOVA applying Kruskal-Wallis are shown. Error bars represent SD. (D) Representative flow cytometry dot plots showing CD8+SPAS-1+ T cells from TDLNs of TRAMP-C2 rechallenged mice involved in A. Values represent percentages.