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Insights into the anticancer mechanisms of interleukin-15 from engineered cytokine therapies
Zachary J. Bernstein, Jamie B. Spangler
Zachary J. Bernstein, Jamie B. Spangler
Published October 1, 2021
Citation Information: J Clin Invest. 2021;131(19):e152857. https://doi.org/10.1172/JCI152857.
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Commentary

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

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.

Authors

Zachary J. Bernstein, Jamie B. Spangler

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