Transcription factor KLF2 regulates homeostatic NK cell proliferation and survival

Rabacal, Whitney; Kumar, Pabbisetty Sudheer; Hoek, Kristen L.; Cendron, Delphine; Guo, Yin; Maseda, Damián; Sebzda, Eric

doi:10.1073/pnas.1521491113

Cited by 56 publications

(46 citation statements)

References 47 publications

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“…Natural killer cells are bone‐marrow‐derived large granular lymphocytes possessing a ‘natural’ ability to kill tumours without prior priming . Most recently, NK cells have been classified among a cohort of lymphocytes termed innate lymphoid cells .…”

Section: Natural Killer Cells: Important Frontline Of Defence Againstmentioning

confidence: 99%

“…Natural killer cells are bone-marrow-derived large granular lymphocytes possessing a 'natural' ability to kill tumours without prior priming. 54,55 Most recently, NK cells have been classified among a cohort of lymphocytes termed innate lymphoid cells. 56 Although NK cells and other innate lymphoid cells share lineage origin with T and B lymphocytes of the adaptive immune system, NK cells lack the expression of germ-line rearranged immunoglobulin and T-cell receptor genes.…”

Section: Natural Killer Cells: Important Frontline Of Defence Againstmentioning

confidence: 99%

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The biology of natural killer cells during sepsis

et al. 2017

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SummaryNatural killer (NK) cells are large granular lymphocytes largely recognized for their importance in tumour surveillance and the host response to viral infections. However, as the major innate lymphocyte population, NK cells also coordinate early responses to bacterial infections by amplifying the antimicrobial functions of myeloid cells, especially macrophages, by production of interferon-c (IFN-c). Alternatively, excessive NK cell activation and IFN-c production can amplify the systemic inflammatory response during sepsis resulting in increased physiological dysfunction and organ injury. Our understanding of NK cell biology during bacterial infections and sepsis is mostly derived from studies performed in mice. Human studies have demonstrated a correlation between altered NK cell functions and outcomes during sepsis. However, mechanistic understanding of NK cell function during human sepsis is limited. In this review, we will review the current understanding of NK cell biology during sepsis and discuss the challenges associated with modulating NK cell function during sepsis for therapeutic benefit.

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Section: Natural Killer Cells: Important Frontline Of Defence Againstmentioning

confidence: 99%

Section: Natural Killer Cells: Important Frontline Of Defence Againstmentioning

confidence: 99%

The biology of natural killer cells during sepsis

et al. 2017

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“…These cells express the IL‐2Rβ chain (CD122), Sca‐1, IL‐7Rα, and ID2 but lacked markers typically expressed on fully differentiated mature NK cells such as NK1.1, NKp46, and CD49b . In the bone marrow, this progenitor further committed into NK progenitor (NKP) and subsequently into immature and mature NK cells under the influence of a core transcription program including but not restricted to Id2 , Gata3 , Nfil3 , Klf2 , Eomes , Tbx21 , Tcf7 , Tox, and Ets‐1 (Figure ) . Interestingly, NFIL3 expression is essential for the development of all ILC subsets but appears to be only required early and transiently to implement the ILC program as Nfil3 deletion in ID2 + mature NK cells does not affect NK cell survival or function …”

Section: Innate Lymphoid Cell Subsetsmentioning

confidence: 99%

“…Critical extracellular signals influencing ILC functions and mediating ILC plasticity are depicted. Networks were designed based on Ch IP data or reporter assays (thick lines) together with gene deletion or overexpression systems (regular lines) . Nonexpressed genes are depicted in gray.…”

Section: Innate Lymphoid Cell Subsetsmentioning

confidence: 99%

Deconstructing deployment of the innate immune lymphocyte army for barrier homeostasis and protection

Almeida

Jacquelot

Belz

2018

Immunological Reviews

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Summary The study of the immune system has shifted from a purely dichotomous separation between the innate and adaptive arms to one that is now highly complex and reshaping our ideas of how steady‐state health is assured. It is now clear that immune cells do not neatly fit into these two streams and immune homeostasis depends on continual dialogue between multiple lineages of the innate (including dendritic cells, innate lymphoid cells, and unconventional lymphocytes) and adaptive (T and B lymphocytes) arms together with a finely tuned synergy between the host and microbes which is essential to ensure immune homeostasis. Innate lymphoid cells are critical players in this new landscape. Here, we discuss recent studies that have elucidated in detail the development of ILC s from their earliest progenitors and examine factors that influence their identification and ability to drive immune homeostasis and long‐term immune protection.

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“…Beyond these lineage-defining TFs, the ILC networks accurately predicted several other TFs with known functions in various ILC lineages. These include TCF-1 (Tcf7) in CCR6 + ILC3 (Mielke et al, 2013); LEF1 (Held et al, 2003) and BLIMP-1 (Prdm1) (Kallies et al, 2011;Smith et al, 2010) in NK; KLF2 in NK and ILC1 (Rabacal et al, 2016); and PPARg in ILC2 (highlighted in bold, Figure 3A). Importantly, the majority of the 125 TFs are novel predictions, highlighting the utility of our network approach to markedly expand TF predictions beyond what is possible by standard motif enrichment analysis.…”

Section: Gene Expressi Onmentioning

confidence: 99%

Transcriptional regulatory networks that promote and restrict identities and functions of intestinal innate lymphoid cells

Pokrovskii

Hall

et al. 2018

Preprint

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Innate lymphoid cells (ILCs) can be subdivided into several distinct cytokine-secreting lineages that promote tissue homeostasis and immune defense but also contribute to inflammatory diseases. Accumulating evidence suggests that ILCs, similarly to other immune populations, are capable of phenotypic and functional plasticity in response to infectious or environmental stimuli. Yet the transcriptional circuits that control ILC identity and function are largely unknown. Here we integrate gene expression and chromatin accessibility data to infer transcriptional regulatory networks within intestinal type 1, 2, and 3 ILCs. We predict the "core" sets of transcription-factor (TF) regulators driving each ILC subset identity, among which only a few TFs were previously known. To assist in the interpretation of these networks, TFs were organized into cooperative clusters, or modules that control gene programs with distinct functions. The ILC network reveals extensive alternative-lineage-gene repression, whose regulation may explain reported plasticity between ILC subsets. We validate new roles for c-MAF and BCL6 as regulators affecting the type 1 and type 3 ILC lineages. Manipulation of TF pathways identified here might provide a novel means to selectively regulate ILC effector functions to alleviate inflammatory disease or enhance host tolerance to pathogenic microbes or noxious stimuli. Our results will enable further exploration of ILC biology, while our network approach will be broadly applicable to identifying key cell state regulators in other in vivo cell populations.3 Introduction:

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Transcription factor KLF2 regulates homeostatic NK cell proliferation and survival

Cited by 56 publications

References 47 publications

The biology of natural killer cells during sepsis

The biology of natural killer cells during sepsis

Deconstructing deployment of the innate immune lymphocyte army for barrier homeostasis and protection

Transcriptional regulatory networks that promote and restrict identities and functions of intestinal innate lymphoid cells

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