Distinct developmental pathways generate functionally distinct populations of natural killer cells

• Published in: Nature immunology Vol. 25; no. 7; pp. 1183 - 1192
• Main Authors: Ding, Yi, Lavaert, Marieke, Grassmann, Simon, Band, Victor I., Chi, Liang, Das, Arundhoti, Das, Sumit, Harly, Christelle, Shissler, Susannah C., Malin, Justin, Peng, Dingkang, Zhao, Yongge, Zhu, Jinfang, Belkaid, Yasmine, Sun, Joseph C., Bhandoola, Avinash
• Format: Journal Article
• Language: English
• Published: New York Nature Publishing Group US 01.07.2024; Nature Publishing Group
• Subjects: 631/250/1619/382; 631/250/2504/2506; 631/250/254; Biomedical and Life Sciences; Biomedicine; Cancer; Cells; Cytomegalovirus; Herpes simplex; Herpes viruses; Immunology; Infections; Infectious Diseases; Life Sciences; Lymphoid cells; Natural killer cells; Progenitor cells; Salmonella; Surface markers; Tumor cells; γ-Interferon
• ISSN: 1529-2908; 1529-2916; 1529-2916
• DOI: 10.1038/s41590-024-01865-2

Natural killer (NK) cells function by eliminating virus-infected or tumor cells. Here we identified an NK-lineage-biased progenitor population, referred to as early NK progenitors (ENKPs), which developed into NK cells independently of common precursors for innate lymphoid cells (ILCPs). ENKP-derived NK cells (ENKP_NK cells) and ILCP-derived NK cells (ILCP_NK cells) were transcriptionally different. We devised combinations of surface markers that identified highly enriched ENKP_NK and ILCP_NK cell populations in wild-type mice. Furthermore, Ly49H + NK cells that responded to mouse cytomegalovirus infection primarily developed from ENKPs, whereas ILCP_NK cells were better IFNγ producers after infection with Salmonella and herpes simplex virus. Human CD56 dim and CD56 bright NK cells were transcriptionally similar to ENKP_NK cells and ILCP_NK cells, respectively. Our findings establish the existence of two pathways of NK cell development that generate functionally distinct NK cell subsets in mice and further suggest these pathways may be conserved in humans. Bhandoola and colleagues describe the existence of two pathways of NK cell development that generate functionally distinct NK cell subsets in mice, and which may be conserved in humans.