A reengineered common chain cytokine augments CD8+ T cell–dependent immunotherapy
Anirban Banerjee, Dongge Li, Yizhan Guo, Zhongcheng Mei, Christine Lau, Kelly Chen, John Westwick, Jeffery B. Klauda, Adam Schrum, Eric R. Lazear, Alexander S. Krupnick
Anirban Banerjee, Dongge Li, Yizhan Guo, Zhongcheng Mei, Christine Lau, Kelly Chen, John Westwick, Jeffery B. Klauda, Adam Schrum, Eric R. Lazear, Alexander S. Krupnick
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Research Article Immunology Therapeutics

A reengineered common chain cytokine augments CD8+ T cell–dependent immunotherapy

Abstract

Cytokine therapy is limited by undesirable off-target side effects as well as terminal differentiation and exhaustion of chronically stimulated T cells. Here, we describe the signaling properties of a potentially unique cytokine by design, where T cell surface binding and signaling are separated between 2 different families of receptors. This fusion protein cytokine, called OMCPmutIL-2, bound with high affinity to the cytotoxic lymphocyte-defining immunoreceptor NKG2D but signaled through the common γ chain cytokine receptor. In addition to precise activation of cytotoxic T cells due to redirected binding, OMCPmutIL-2 resulted in superior activation of both human and murine CD8+ T cells by improving their survival and memory cell generation and decreasing exhaustion. This functional improvement was the direct result of altered signal transduction based on the reorganization of surface membrane lipid rafts that led to Janus kinase-3–mediated phosphorylation of the T cell receptor rather than STAT/AKT signaling intermediates. This potentially novel signaling pathway increased CD8+ T cell response to low-affinity antigens, activated nuclear factor of activated T cells transcription factors, and promoted mitochondrial biogenesis. OMCPmutIL-2 thus outperformed other common γ chain cytokines as a catalyst for in vitro CD8+ T cell expansion and in vivo CD8+ T cell–based immunotherapy.

Authors

Anirban Banerjee, Dongge Li, Yizhan Guo, Zhongcheng Mei, Christine Lau, Kelly Chen, John Westwick, Jeffery B. Klauda, Adam Schrum, Eric R. Lazear, Alexander S. Krupnick

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Figure 5

OMCPmutIL-2 promotes NFAT-mediated CD8+ T cell activation by augmenting TCR signal transduction.

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OMCPmutIL-2 promotes NFAT-mediated CD8+ T cell activation by augmenting ...
(A) Canonical pathway of NFAT activation through TCR signal transduction. (B) TCR signaling, as measured by Nur77 upregulation (representative FACS plot, left) in the presence of cytokines and variable concentrations of TCR agonistic antibody (anti-CD3) as well as 2 μg/mL of anti-CD28 (MFI, quantification from 5 individual Nur77GFP mice, right). (C) Relative gene expression of the TCR signaling pathway as defined by heatmap analysis in splenic murine CD8+ T cells cultured in the presence of anti-CD3/28 and various cytokines. (D) Phosphorylation of TCR signaling components of murine CD8+ T cells in the presence of wild-type IL-2 (blue), IL-15 (green), or OMCPmutIL-2 (red) or no cytokine (black) with anti-CD3/CD28 cross-linking antibodies. (E) Phosphorylation levels of CD3ζ and STAT-5 levels as measured by MFI in murine CD8+ T cells in the presence or absence of JAK1/3 inhibitor as compared with CD8+ T cells derived from Jak3–/– mice. (F) Graphical representation of OMCPmutIL-2–mediated activation of NFAT activation at the expense of the canonical STAT5/AKT signaling pathways. (G) TCR signal transduction, as measured by Nur77 expression, in OT-1 clonotypic CD8+ T cells incubated with dendritic cells loaded with various SIINFEKL mutants with variable TCR binding avidity. *P < 0.05; **P < 0.01; ***P < 0.001; t test.