Targeting a cytokine checkpoint enhances the fitness of armored cord blood CAR-NK cells

May Daher, Rafet Başar, Elif Gokdemir, Natalia Baran(The University of Texas MD Anderson Cancer Center), Nadima Uprety, Ana Karen Nunez Cortes, Mayela Carolina Mendt, Lucila Nassif Kerbauy(Universidade de São Paulo), Pinaki P. Banerjee, Mayra Shanley, Nobuhiko Imahashi, Li Li, Francesca Lim, Mohsen Fathi(University of Houston), Ali Rezvan(University of Houston), Vakul Mohanty(The University of Texas MD Anderson Cancer Center), Yifei Shen(The University of Texas MD Anderson Cancer Center), Hila Shaim, Junjun Lu, Gonca Ozcan, Emily L. Ensley, Mecit Kaplan, Vandana Nandivada, Mustafa Bdiwi, Sunil Acharya, Yuanxin Xi(The University of Texas MD Anderson Cancer Center), Xinhai Wan, Duncan H. Mak(The University of Texas MD Anderson Cancer Center), Enli Liu, Xin Jiang, Sonny Ang, Luis Muniz-Feliciano, Ye Li, Jing Wang(The University of Texas MD Anderson Cancer Center), Shahram Kordasti(King's College London), Nedyalko Petrov(King's College London), Navin Varadarajan(University of Houston), David Marín, Lorenzo Brunetti(Baylor College of Medicine), Richard J. Skinner(University of Houston), Shangrong Lyu(University of Houston), Leiser Silva(University of Houston), Rolf Turk(Integrated DNA Technologies (United States)), Mollie S. Schubert(Integrated DNA Technologies (United States)), Garrett R. Rettig(Integrated DNA Technologies (United States)), Matthew McNeill(Integrated DNA Technologies (United States)), Gavin Kurgan(Integrated DNA Technologies (United States)), Mark A. Behlke(Integrated DNA Technologies (United States)), Heng Li(Dana-Farber/Harvard Cancer Center), Natalie W. Fowlkes(The University of Texas MD Anderson Cancer Center), Ken Chen(The University of Texas MD Anderson Cancer Center), Marina Konopleva(The University of Texas MD Anderson Cancer Center), Richard E. Champlin, Elizabeth J. Shpall, Katayoun Rezvani
Blood
September 9, 2020
10.1182/blood.2020007748
Cited by 285Open Access
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Abstract

Immune checkpoint therapy has resulted in remarkable improvements in the outcome for certain cancers. To broaden the clinical impact of checkpoint targeting, we devised a strategy that couples targeting of the cytokine-inducible Src homology 2-containing (CIS) protein, a key negative regulator of interleukin 15 (IL-15) signaling, with fourth-generation "armored" chimeric antigen receptor (CAR) engineering of cord blood-derived natural killer (NK) cells. This combined strategy boosted NK cell effector function through enhancing the Akt/mTORC1 axis and c-MYC signaling, resulting in increased aerobic glycolysis. When tested in a lymphoma mouse model, this combined approach improved NK cell antitumor activity more than either alteration alone, eradicating lymphoma xenografts without signs of any measurable toxicity. We conclude that targeting a cytokine checkpoint further enhances the antitumor activity of IL-15-secreting armored CAR-NK cells by promoting their metabolic fitness and antitumor activity. This combined approach represents a promising milestone in the development of the next generation of NK cells for cancer immunotherapy.

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