Abstract

BackgroundSeveral members of the common gamma chain (gc) cytokine family are already approved (IL-2) or actively being developed as vaccine adjuvants and cancer immunotherapies. Studies have indicated that co-administration of gc cytokines may enhance the efficacy of immunotherapies that function via direct activation of co-stimulatory T cell receptors. To define the specific influence of gc cytokines on the co-stimulatory capacity of CD8+ T cells and identify combinations with synergistic potential, we investigated the direct impact of gc cytokines on the differentiation and transcriptional profile of recently antigen-primed CD8+ T cells.MethodsNaïve CD8+ T cells were activated with peptide-pulsed APCs. After 48 hours, CD8+ T cells were harvested and re-cultured in media supplemented with IL-2, IL-4, IL-7, IL-15 or IL-21. After 24 hours, cells were analyzed by cytokine bead array, flow cytometry, and mRNA micro-array. Gene networks responsible for specific CD8+ T cell functions were constructed through literature-meta review and publicly available annotation databases. Gene expression data from the experimental groups was imported into this network to visualize the impact of each gc cytokine on the functional polarization of recently-activated CD8+ T cells.ResultsAmong the gc cytokines, IL-2 induced the greatest increase in the expression of co-stimulatory receptors in recently-activated CD8+ T cells. IL-2 increased significantly expression of 4-1BB, GITR, ICOS and OX40, at both the transcriptional and protein level. IL-2 also drove the greatest increase in cellular proliferation and the most robust shift towards a pro-survival phenotype, compared with the other gc cytokines. Both IL-4 and IL-21 enhanced expression of cytotoxic effector proteins, but drove distinct phenotypic polarizations, Th2/Tc2 and NK-like, respectively.ConclusionsOverall, these observations suggest that among gc cytokines, IL-2 may be uniquely capable of synergizing with therapeutic strategies that combine immunization with agonists of co-stimulatory T cell receptors. Previous studies have shown that the timing of IL-2 treatment relative to immunization plays a key role in defining the CD8+ T cell response, and the findings from this study indicate that administration of exogenous IL-2 shortly after the initial antigen-priming event has concluded may augment the receptivity of these cells to subsequent TNFR co-stimulation.

Highlights

  • Several members of the common gamma chain cytokine family are already approved (IL-2) or actively being developed as vaccine adjuvants and cancer immunotherapies

  • High dose IL-2 therapy, which drives an expansion of lymphocyte populations, is currently approved by the FDA for the treatment of metastatic melanoma and renal cancer [4]

  • Our findings suggest that the cytotoxic activity of such a population may be further enhanced by IL-21 treatment, and it has been reported that a combination of IL-21 with low dose IL-2 improves outcomes in a murine melanoma model, in part by enhancing the anti-tumor activity of CD8+ T cells [29]

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Summary

Introduction

Several members of the common gamma chain (gc) cytokine family are already approved (IL-2) or actively being developed as vaccine adjuvants and cancer immunotherapies. The γc cytokines are especially important in lymphocyte development, where they influence polarization, proliferation and survival [1] Because of this influence, the therapeutic potential of γc family cytokines has been investigated in the context of numerous biomedical applications, notably cancer immunotherapy [2,3]. The remaining γc cytokines, with the exception of IL-9, are at various stages of preclinical development for immunotherapy applications [1] Beyond their utility as monotherapies, ongoing research has indicated that the combination of exogenous γc cytokines with agonistic monoclonal antibodies that target TNFR family receptors on T cells can enhance anti-tumor immunity in multiple cancer models [5,6]. A thorough understanding of how γc cytokines modulate and potentiate TNFR signaling in activated CD8+ T cells is important for the development of better combinatorial cancer immunotherapies

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