Phosphoinositide 3-kinase δ inhibition promotes antitumor responses but antagonizes checkpoint inhibitors
Ee Lyn Lim, … , Rahul Roychoudhuri, Klaus Okkenhaug
Ee Lyn Lim, … , Rahul Roychoudhuri, Klaus Okkenhaug
Published June 7, 2018
Citation Information: JCI Insight. 2018;3(11):e120626. https://doi.org/10.1172/jci.insight.120626.
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Research Article Immunology Oncology

Phosphoinositide 3-kinase δ inhibition promotes antitumor responses but antagonizes checkpoint inhibitors

Abstract

Multiple modes of immunosuppression restrain immune function within tumors. We previously reported that phosphoinositide 3-kinase δ (PI3Kδ) inactivation in mice confers resistance to a range of tumor models by disrupting immunosuppression mediated by regulatory T cells (Tregs). The PI3Kδ inhibitor idelalisib has proven highly effective in the clinical treatment of chronic lymphocytic leukemia and the potential to extend the use of PI3Kδ inhibitors to nonhematological cancers is being evaluated. In this work, we demonstrate that the antitumor effect of PI3Kδ inactivation is primarily mediated through the disruption of Treg function, and correlates with tumor dependence on Treg immunosuppression. Compared with Treg-specific PI3Kδ deletion, systemic PI3Kδ inactivation is less effective at conferring resistance to tumors. We show that PI3Kδ deficiency impairs the maturation and reduces the capacity of CD8+ cytotoxic T lymphocytes (CTLs) to kill tumor cells in vitro, and to respond to tumor antigen–specific immunization in vivo. PI3Kδ inactivation antagonized the antitumor effects of tumor vaccines and checkpoint blockade therapies intended to boost the CD8+ T cell response. These findings provide insights into mechanisms by which PI3Kδ inhibition promotes antitumor immunity and demonstrate that the mechanism is distinct from that mediated by immune checkpoint blockade.

Authors

Ee Lyn Lim, Fiorella M. Cugliandolo, Dalya R. Rosner, David Gyori, Rahul Roychoudhuri, Klaus Okkenhaug

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Figure 2

PI3KδD910A CD8+ T cells show functional defects.

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PI3KδD910A CD8+ T cells show functional defects. In vitro assays were co...
In vitro assays were conducted with 3 biological replicates. (A) CD8+ T cell cytotoxic capacity was measured in an in vitro killing assay, using tumor cells expressing ovalbumin (OVA) protein (stained with CMFDA CellTracker Green) as targets for in vitro–stimulated OT-I CD8+ T cells, and parental tumor cells (stained with CMRA CellTracker Orange) as controls. Representative FACS plots shows EL4-OVA and EL4 cells incubated with, from left to right, WT, PI3KδD910A, or no CD8+ T cells. (B) Cytotoxic efficiency measured in WT versus PI3KδD910A OT-I CD8+ cells using EL4-OVA, MC38-OVA, and LLC-OVA cells. (C) Cytotoxic efficiency measured in WT versus PI3KδD910A OT-I CD8+ cells using EL4 cells pulsed with SIINFEKL peptide, and single-amino-acid variants of decreasing binding affinity for the OT-I T cell receptor (TCR). (D) CD62L, granzyme A, and granzyme B expression measured in in vitro–stimulated WT versus PI3KδD910A OT-I CD8+ cells. MFI, median fluorescence intensity. (E) Granzyme A and B expression measured in tumor-infiltrating CD8+ T cells from WT vs PI3KδD910A mice (n = 8). Statistical significance was determined by multiple t tests with Holm-Sidak correction (BD) or the Mann-Whitney test (E). *P < 0.05; **P < 0.01; ***P < 0.001.