Minimal PD-1 expression in mouse and human NK cells under diverse conditions
Sean J. Judge, … , Robert J. Canter, William J. Murphy
Sean J. Judge, … , Robert J. Canter, William J. Murphy
Published March 5, 2020
Citation Information: J Clin Invest. 2020;130(6):3051-3068. https://doi.org/10.1172/JCI133353.
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Research Article Immunology

Minimal PD-1 expression in mouse and human NK cells under diverse conditions

Abstract

PD-1 expression is a hallmark of both early antigen-specific T cell activation and later chronic stimulation, suggesting key roles in both naive T cell priming and memory T cell responses. Although significant similarities exist between T cells and NK cells, there are critical differences in their biology and functions reflecting their respective adaptive and innate immune effector functions. Expression of PD-1 on NK cells is controversial despite rapid incorporation into clinical cancer trials. Our objective was to stringently and comprehensively assess expression of PD-1 on both mouse and human NK cells under multiple conditions and using a variety of readouts. We evaluated NK cells from primary human tumor samples, after ex vivo culturing, and from multiple mouse tumor and viral models using flow cytometry, quantitative reverse-transcriptase PCR (qRT-PCR), and RNA-Seq for PD-1 expression. We demonstrate that, under multiple conditions, human and mouse NK cells consistently lack PD-1 expression despite the marked upregulation of other activation/regulatory markers, such as TIGIT. This was in marked contrast to T cells, which were far more prominent within all tumors and expressed PD-1. These data have important implications when attempting to discern NK from T cell effects and to determine whether PD-1 targeting can be expected to have direct effects on NK cell functions.

Authors

Sean J. Judge, Cordelia Dunai, Ethan G. Aguilar, Sarah C. Vick, Ian R. Sturgill, Lam T. Khuat, Kevin M. Stoffel, Jonathan Van Dyke, Dan L. Longo, Morgan A. Darrow, Stephen K. Anderson, Bruce R. Blazar, Arta M. Monjazeb, Jonathan S. Serody, Robert J. Canter, William J. Murphy

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Figure 6

Ex vivo generation of expanded and activated human NK cells upregulates TIGIT, not PD-1.

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Ex vivo generation of expanded and activated human NK cells upregulates ...
(A) Schematic shows method for generating ex vivo human NK cells from healthy donor PBMCs. (B) Representative flow cytometry gating shows NK and T cell populations before and after NK isolation at day 0 and then at day 6 during NK expansion. (C) mRNA expression of Ki67 was significantly increased at all time points, consistent with a highly proliferative state and (D) confirmed by a significant increase in Ki67+ NK cells at day 6 by flow cytometry. (E) Coculture demonstrated robust NK expansion along with significant upregulation of (F) CD69 expression, (G) granzyme B expression, and (H) CD107a degranulation. Although isolated NK cells are highly proliferative, with upregulation of activation and functional markers, (I) there was no expression of PD-1 across all time points analyzed. (J) Isolated NK cells were also analyzed for PD-1 mRNA expression by qRT-PCR and compared with unstimulated (day 0) PBMCs. PD-1 expression on isolated and expanded NK cells was minimal by qRT-PCR at all time points. (K) In contrast, we detected consistent and significant upregulation of TIGIT on NK cells as shown by representative flow cytometry on day 6 and summarized for all time points analyzed. (L) qRT-PCR analysis confirmed significant upregulation of TIGIT mRNA expression compared with unstimulated (day 0) PBMCs. Data are shown as mean ± SD compiled for n = 3 (C and IL) or n = 2 (D and E) donors from independent experiments. Data are shown as mean ± SD for 1 to 2 donors cultured in duplicate or triplicate (FH). *P < 0.05; **P < 0.01; ***P < 0.001; ****P < 0.0001, Student’s t test (D) or 1-way ANOVA (C and IL) compared with day 0 NK (I and K) or day 0 PBMCs (J and L).