Abstract
Clinical responses to high-dose IL2 therapy are limited due to selective expansion of CD4+CD25+Foxp3+ T-regulatory cells (Treg), especially ICOS+ Tregs, rather than natural killer (NK) cells and effector T cells. These ICOS+ Tregs are highly suppressive and constitutively express high levels of IL2Rα (CD25) and CD39. Here, we characterized the effect of a mutant form of IL2 (F42K), which preferentially binds to the lower affinity IL2Rβγ with reduced binding to CD25, on Tregs, effector NK cells, and T-cell subsets. Unlike wild-type (WT) IL2, F42K did not efficiently induce the expansion of highly suppressive ICOS+ Tregs in peripheral blood mononuclear cells (PBMC) from healthy controls and melanoma patients. Instead, it promoted the expansion of CD16+CD56+ NK cells and CD56hiCD16- NK cell subsets in both short- and long-term cultures, with enhanced Bcl-2 expression. Stimulation of PBMCs with F42K induced expression of more NK cell activation molecules, such as NKp30, NKp44, DNAM-1, NKG2D, 4-1BB/CD137, and Tim-3, than WT IL2. F42K induced greater upregulation of TRAIL, and NK-mediated cytolytic activity was increased against both autologous and HLA-mismatched melanoma cells compared with WT IL2. Gene expression analysis revealed distinct gene expression profiles stimulated by F42K, WT IL2, and IL15. F42K therapy in vivo also induced a dramatic reduction in the expansion of ICOS+ Tregs, promoted NK cell expansion, and inhibited melanoma tumor growth more efficiently than WT IL2 and more effectively than anti-CTLA-4. Our findings suggest that F42K could be a potential substitute for WT IL2 as a cytokine therapy for cancer. Cancer Immunol Res; 4(11); 983-94. ©2016 AACR.
Highlights
IL2 is one of the most well studied cytokines since its initial discovery as "T cell growth factor" and later for its immunostimulatory effects on natural killer (NK) cells and NK T cells
We further investigate how F42K affects the expansion of T-regulatory cells (Treg), especially the highly suppressive ICOSþ Treg subset that correlates with clinical outcome during WT IL2 therapy [17]
We found that WT IL2 facilitated the expansion of highly suppressive CD39þCD127loICOSþ Tregs, but not effector T cells
Summary
IL2 is one of the most well studied cytokines since its initial discovery as "T cell growth factor" and later for its immunostimulatory effects on natural killer (NK) cells and NK T cells. IL2 belongs to the gc cytokine family and binds to the IL2 receptor, which is composed of the three subunits IL2Ra (CD25), IL2Rb (CD122), and IL2Rg (CD132). IL2 binds with different affinities, depending on the subunit composition, with binding to the IL2Rabg trimeric complex of greater affinity than binding to either a single IL2 receptor subunit or to the IL2Rbg heterodimer [1,2,3,4]. The IL2Rabg trimeric complex is expressed constitutively at. Note: Supplementary data for this article are available at Cancer Immunology Research Online (http://cancerimmunolres.aacrjournals.org/).
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