T-BET and EOMES sustain mature human NK cell identity and antitumor function
Pamela Wong, Jennifer A. Foltz, Lily Chang, Carly C. Neal, Tony Yao, Celia C. Cubitt, Jennifer Tran, Samantha Kersting-Schadek, Sathvik Palakurty, Natalia Jaeger, David A. Russler-Germain, Nancy D. Marin, Margery Gang, Julia A. Wagner, Alice Y. Zhou, Miriam T. Jacobs, Mark Foster, Timothy Schappe, Lynne Marsala, Ethan McClain, Patrick Pence, Michelle Becker-Hapak, Bryan Fisk, Allegra A. Petti, Obi L. Griffith, Malachi Griffith, Melissa M. Berrien-Elliott, Todd A. Fehniger
Pamela Wong, Jennifer A. Foltz, Lily Chang, Carly C. Neal, Tony Yao, Celia C. Cubitt, Jennifer Tran, Samantha Kersting-Schadek, Sathvik Palakurty, Natalia Jaeger, David A. Russler-Germain, Nancy D. Marin, Margery Gang, Julia A. Wagner, Alice Y. Zhou, Miriam T. Jacobs, Mark Foster, Timothy Schappe, Lynne Marsala, Ethan McClain, Patrick Pence, Michelle Becker-Hapak, Bryan Fisk, Allegra A. Petti, Obi L. Griffith, Malachi Griffith, Melissa M. Berrien-Elliott, Todd A. Fehniger
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Research Article Immunology

T-BET and EOMES sustain mature human NK cell identity and antitumor function

Abstract

Since the T-box transcription factors (TFs) T-BET and EOMES are necessary for initiation of NK cell development, their ongoing requirement for mature NK cell homeostasis, function, and molecular programming remains unclear. To address this, T-BET and EOMES were deleted in unexpanded primary human NK cells using CRISPR/Cas9. Deleting these TFs compromised in vivo antitumor response of human NK cells. Mechanistically, T-BET and EOMES were required for normal NK cell proliferation and persistence in vivo. NK cells lacking T-BET and EOMES also exhibited defective responses to cytokine stimulation. Single-cell RNA-Seq revealed a specific T-box transcriptional program in human NK cells, which was rapidly lost following T-BET and EOMES deletion. Further, T-BET– and EOMES-deleted CD56bright NK cells acquired an innate lymphoid cell precursor–like (ILCP-like) profile with increased expression of the ILC-3–associated TFs RORC and AHR, revealing a role for T-box TFs in maintaining mature NK cell phenotypes and an unexpected role of suppressing alternative ILC lineages. Our study reveals the critical importance of sustained EOMES and T-BET expression to orchestrate mature NK cell function and identity.

Authors

Pamela Wong, Jennifer A. Foltz, Lily Chang, Carly C. Neal, Tony Yao, Celia C. Cubitt, Jennifer Tran, Samantha Kersting-Schadek, Sathvik Palakurty, Natalia Jaeger, David A. Russler-Germain, Nancy D. Marin, Margery Gang, Julia A. Wagner, Alice Y. Zhou, Miriam T. Jacobs, Mark Foster, Timothy Schappe, Lynne Marsala, Ethan McClain, Patrick Pence, Michelle Becker-Hapak, Bryan Fisk, Allegra A. Petti, Obi L. Griffith, Malachi Griffith, Melissa M. Berrien-Elliott, Todd A. Fehniger

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Figure 3

EOMES and T-BET deletion impairs NK cell cytokine response.

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EOMES and T-BET deletion impairs NK cell cytokine response. (A–D) In vit...
(AD) In vitro functional assessment. Day 6/7 after CRISPR electroporation, NK cells were stimulated with K562 and IL-12+15. Degranulation (CD107a) and IFN-γ production were quantified by intracellular flow staining. (AC) Summary data of IFN-γ response by TBX21-edited (A), EOMES-edited (B), and T+E edited (C) CD56bright NK cells. (D) Summary data of IFN-γ response control and T+E edited NK cells stimulated with IL-12+15+18. n = 7–10 donors, 4–7 independent experiments in AD. (E) Schema of ex vivo functional assessment experiment. 1.5–2 weeks after NK cell injection, splenocytes were harvested and stimulated with K562, IL-12+15, and IL-12+15+18 for 6 hours. (FH) Summary data of IFN-γ (F), TNF (G), and CD107a (H) in human NK cells within indicated T-BET/EOMES flow gate. n = 2 donors, 4 mice, 3 independent experiments. (I) 1.5 weeks after CRIPSR editing, in vitro–maintained NK cells were stimulated with PMA/ionomycin for 6 hours. IFN-γ production by NK cells by flow-gated CD56bright and CD56dim subsets is shown. n = 4 donors, 2 independent experiments. Data were compared by 2-way ANOVA with Holm-Šidák multiple-comparison test. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.