CD127+ Natural Killer Cells Represent a Distinct, Interleukin-15-Independent and Thymus-Independent Subset in Mice
Yuna Kim, Seon-Yeong Hwang, Young-Jin Kwon, Ji-Eun Kim, Lata Rajbongshi, Su-Rin Lee, Seongwon Joo, Seongheum Park, Sae-Ock Oh, Byoung-Soo Kim, Dongjun Lee, Sik Yoon

TL;DR
The study identifies a new subset of mouse NK cells that develop without thymus or IL-15, and are instead supported by IL-7.
Contribution
Discovers a novel, IL-7-dependent, thymus- and IL-15-independent CD127+ NK cell subset in mice.
Findings
CD127+ NK cells are present in multiple tissues and are distinct from other NK subsets.
These cells depend on IL-7 signaling, not IL-15 or thymus-derived development.
They are functionally active, producing interferon-γ and showing cytotoxic activity.
Abstract
Natural killer (NK) cells, key effectors of innate immunity, are classically categorized into CD56dim and CD56bright subsets in humans. While murine NK cell heterogeneity has become increasingly recognized, the classification of mature NK cell subsets remains incompletely defined. Here, we comprehensively characterized CD127+ NK cells in mice and identified them as a distinct, mature subset, developing independently of the thymus and interleukin (IL)-15 signaling. Flow cytometric analyses revealed that CD127+ NK cells are broadly distributed across lymphoid and non-lymphoid tissues—including in C57BL/6 wild-type and athymic Foxn1−/− mice—and exhibit a surface phenotype distinct from CD127− NK and thymus-derived CD127+ NK cells. Functional assays demonstrated that CD127+ NK cells produce interferon-γ and exert cytotoxic activity, despite expressing markers typically associated with…
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Taxonomy
TopicsImmune Cell Function and Interaction · IL-33, ST2, and ILC Pathways · Pediatric health and respiratory diseases
