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Insights into the anticancer mechanisms of interleukin-15 from engineered cytokine therapies

Zachary J. Bernstein, Jamie B. Spangler

2021Journal of Clinical Investigation10 citationsDOIOpen Access PDF

Abstract

Innovative approaches in the field of cytokine engineering are revolutionizing the cancer therapeutic landscape. The IL-15 cytokine is particularly enticing as a cancer immunotherapy due to its natural propensity for stimulating the proliferation and activation of NK and CD8+ T cells. In a recent IL-15 engineering approach, the cytokine was conjugated to polyethylene glycol, and the resulting molecule (NKTR-255) exhibited potent antitumor activities. In this issue of the JCI, Robinson et al. mechanistically explored NKTR-255 and compared its immune profile to that of the unconjugated IL-15 cytokine. The authors found that NKTR-255 employs distinct activities on NK compared with CD8+ T cells. NKTR-255 signaling also showed less dependence on the expression of the IL-15 receptor-α (IL-15Rα) chain compared with unconjugated IL-15. Collectively, these findings will advance IL-15-based clinical therapies and, more generally, benefit the field of cancer immunotherapy.

Topics & Concepts

CytokineImmunotherapyInterleukin 15CD8Cancer researchCancer immunotherapyInterleukin 2Cytokine receptorImmune systemImmunologyCancerMedicineInterleukinBiologyInternal medicineImmune Cell Function and InteractionCAR-T cell therapy researchT-cell and B-cell Immunology
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