Supplementary figure S5 from Differential PI3Kδ Signaling in CD4+ T-cell Subsets Enables Selective Targeting of T Regulatory Cells to Enhance Cancer Immunotherapy
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posted on 2023-03-31, 01:03 authored by Shamim Ahmad, Rasha Abu-Eid, Rajeev Shrimali, Mason Webb, Vivek Verma, Atbin Doroodchi, Zuzana Berrong, Raed Samara, Paulo C. Rodriguez, Mikayel Mkrtichyan, Samir N. KhleifThe inhibition of PI3Kα or PI3Kβ does not block the proliferation of Tregs and Tconvs
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ARTICLE ABSTRACT
To modulate T-cell function for cancer therapy, one challenge is to selectively attenuate regulatory but not conventional CD4+ T-cell subsets [regulatory T cell (Treg) and conventional T cell (Tconv)]. In this study, we show how a functional dichotomy in Class IA PI3K isoforms in these two subsets of CD4+ T cells can be exploited to target Treg while leaving Tconv intact. Studies employing isoform-specific PI3K inhibitors and a PI3Kδ-deficient mouse strain revealed that PI3Kα and PI3Kβ were functionally redundant with PI3Kδ in Tconv. Conversely, PI3Kδ was functionally critical in Treg, acting there to control T-cell receptor signaling, cell proliferation, and survival. Notably, in a murine model of lung cancer, coadministration of a PI3Kδ-specific inhibitor with a tumor-specific vaccine decreased numbers of suppressive Treg and increased numbers of vaccine-induced CD8 T cells within the tumor microenvironment, eliciting potent antitumor efficacy. Overall, our results offer a mechanistic rationale to employ PI3Kδ inhibitors to selectively target Treg and improve cancer immunotherapy. Cancer Res; 77(8); 1892–904. ©2017 AACR.Usage metrics
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