Sarah Lesjean-Pottier scite author profile

Natural killer (NK) cells are innate lymphocytes with spontaneous antitumor activity, and they produce interferon-gamma (IFN-gamma) that primes immune responses. Whereas T helper cell subsets differentiate from naive T cells via specific transcription factors, evidence for NK cell diversification is limited. In this report, we characterized intestinal lymphocytes expressing the NK cell natural cytotoxicity receptor NKp46. Gut NKp46+ cells were distinguished from classical NK cells by limited IFN-gamma production and absence of perforin, whereas several subsets expressed the nuclear hormone receptor retinoic acid receptor-related orphan receptor t (RORgammat) and interleukin-22 (IL-22). Intestinal NKp46+IL-22+ cells were generated via a local process that was conditioned by commensal bacteria and required RORgammat. Mice lacking IL-22-producing NKp46+ cells showed heightened susceptibility to the pathogen Citrobacter rodentium, consistent with a role for intestinal NKp46+ cells in immune protection. RORgammat-driven diversification of intestinal NKp46+ cells thereby specifies an innate cellular defense mechanism that operates at mucosal surfaces.

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IL-7 and IL-15 independently program the differentiation of intestinal CD3−NKp46+ cell subsets from Id2-dependent precursors

Satoh-Takayama

et al. 2010

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The natural cytotoxicity receptor NKp46 (encoded by Ncr1) was recently shown to identify a subset of noncytotoxic, Rag-independent gut lymphocytes that express the transcription factor Rorc, produce interleukin (IL)-22, and provide innate immune protection at the intestinal mucosa. Intestinal CD3−NKp46+ cells are phenotypically heterogeneous, comprising a minority subset that resembles classical mature splenic natural killer (NK) cells (NK1.1+, Ly49+) but also a large CD127+NK1.1− subset of lymphoid tissue inducer (LTi)–like Rorc+ cells that has been proposed to include NK cell precursors. We investigated the developmental relationships between these intestinal CD3−NKp46+ subsets. Gut CD3−NKp46+ cells were related to LTi and NK cells in requiring the transcriptional inhibitor Id2 for normal development. Overexpression of IL-15 in intestinal epithelial cells expanded NK1.1+ cells within the gut but had no effect on absolute numbers of the CD127+NK1.1−Rorc+ subset of CD3−NKp46+ cells. In contrast, IL-7 deficiency strongly reduced the overall numbers of CD3−NKp46+NK1.1− cells that express Rorc and produce IL-22 but failed to restrict homeostasis of classical intestinal NK1.1+ cells. Finally, in vivo fate-mapping experiments demonstrated that intestinal NK1.1+CD127− cells are not the progeny of Rorc-expressing progenitors, indicating that CD127+NK1.1−Rorc+ cells are not canonical NK cell precursors. These studies highlight the independent cytokine regulation of functionally diverse intestinal NKp46+ cell subsets.

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CD11cloB220+ interferon-producing killer dendritic cells are activated natural killer cells

et al. 2007

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Interferon-producing killer dendritic cells (IKDCs) are a recently described subset of CD11cloB220+ cells that share phenotypic and functional properties of DCs and natural killer (NK) cells (Chan, C.W., E. Crafton, H.N. Fan, J. Flook, K. Yoshimura, M. Skarica, D. Brockstedt, T.W. Dubensky, M.F. Stins, L.L. Lanier, et al. 2006. Nat. Med. 12:207–213; Taieb, J., N. Chaput, C. Menard, L. Apetoh, E. Ullrich, M. Bonmort, M. Pequignot, N. Casares, M. Terme, C. Flament, et al. 2006. Nat. Med. 12:214–219). IKDC development appears unusual in that cytokines using the interleukin (IL)-2 receptor β (IL-2Rβ) chain but not those using the common γ chain (γc) are necessary for their generation. By directly comparing Rag2−/−γc −/y, Rag2−/−IL-2Rβ−/−, Rag2−/−IL-15−/−, and Rag2−/−IL-2−/− mice, we demonstrate that IKDC development parallels NK cell development in its strict IL-15 dependence. Moreover, IKDCs uniformly express NK-specific Ncr-1 transcripts (encoding NKp46), whereas NKp46+ cells are absent in Ncr1gfp/+γc −/y mice. Distinguishing features of IKDCs (CD11cloB220+MHC-II+) were carefully examined on developing NK cells in the bone marrow and on peripheral NK cells. As B220 expression was heterogeneous, defining B220lo versus B220hi NK1.1+ NK cells could be considered as arbitrary, and few phenotypic differences were noted between NK1.1+ NK cells bearing different levels of B220. CD11c expression did not correlate with B220 or major histocompatibility complex (MHC) class II (MHC-II) expression, and most MHC-II+ NK1.1+ cells did not express B220 and were thus not IKDCs. Finally, CD11c, MHC-II, and B220 levels were up-regulated on NK1.1+ cells upon activation in vitro or in vivo in a proliferation-dependent fashion. Our data suggest that the majority of CD11cloB220+ “IKDC-like” cells represent activated NK cells.

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