Balanced engagement of activating and inhibitory receptors mitigates human NK cell exhaustion
Jacob A. Myers, Dawn Schirm, Laura Bendzick, Rachel Hopps, Carly Selleck, Peter Hinderlie, Martin Felices, Jeffrey S. Miller
Jacob A. Myers, Dawn Schirm, Laura Bendzick, Rachel Hopps, Carly Selleck, Peter Hinderlie, Martin Felices, Jeffrey S. Miller
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Research Article Immunology Therapeutics

Balanced engagement of activating and inhibitory receptors mitigates human NK cell exhaustion

Abstract

NK cell exhaustion is caused by chronic exposure to activating stimuli during viral infection, tumorigenesis, and prolonged cytokine treatment. Evidence suggests that exhaustion may play a role in disease progression. However, relative to T cell exhaustion, the mechanisms underlying NK cell exhaustion and methods of reversing it are poorly understood. Here, we describe a potentially novel in vitro model of exhaustion that uses plate-bound agonists of the NK cell activating receptors NKp46 and NKG2D to induce canonical exhaustion phenotypes. In this model, prolonged activation resulted in downregulation of activating receptors, upregulation of checkpoint markers, decreased cytokine production and cytotoxicity in vitro, weakened glycolytic capacity, and decreased persistence, function, and tumor control in vivo. Furthermore, we discovered a beneficial effect of NK cell inhibitory receptor signaling during exhaustion. By simultaneously engaging the inhibitory receptor NKG2A during activation in our model, cytokine production and cytotoxicity defects were mitigated, suggesting that balancing positive and negative signals integrated by effector NK cells can be beneficial for antitumor immunity. Together, these data uncover some of the mechanisms underlying NK cell exhaustion in humans and establish our in vitro model as a valuable tool for studying the processes regulating exhaustion.

Authors

Jacob A. Myers, Dawn Schirm, Laura Bendzick, Rachel Hopps, Carly Selleck, Peter Hinderlie, Martin Felices, Jeffrey S. Miller

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Figure 5

Prolonged stimulation through activating receptors results in functional and proliferative defects in vivo.

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Prolonged stimulation through activating receptors results in functional...
(A) Schematic representing experimental design: sublethally irradiated NSG mice were injected (i.v.) with HL-60-Luc2 cells and injected (i.v.) with NK cells 3 days later. NK cells had been incubated for 7 days on plates with either isotype IgG (control) or anti-NKp46 and MICA/B as previously described. (B) Fourteen days after NK cell injection, blood was drawn, and NK cells were counted via flow cytometry. NK cells were human CD45+CD56+CD3. One-way ANOVA was used for comparisons (n = 8). *P ≤ 0.05. (C) HL-60 tumor burden was tracked via bioluminescent imaging (BLI), with day 21 data pictured. One-way ANOVA was used for comparisons (n = 8). ***P < 0.001. (D and E) Fourteen days after NK cell injection, NK cells were restimulated with K-562 leukemia cells for 4 hours as previously described. Ki67, IFN-γ, TNF-α, and CD107a expression was assessed via flow cytometry (D). Paired t tests were used for comparisons (n = 8). *P ≤ 0.05. Representative data depict Ki67 and IFN-γ expression following K-562 restimulation (E).