286 research outputs found

    Influence des oestrogènes sur la biologie des cellules dendritiques

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    Les données épidémiologiques montrent des différences entre les sexes dans l'immunité. Les femmes ont des réponses immunes plus fortes que les hommes et sont donc moins œsusceptibles aux infections mais, en contrepartie, développent plus fréquemment des maladies auto-immunes, telles que le lupus érythémateux disséminé (LED). De nombreuses données dans la littérature suggèrent que les œstrogènes contribueraient à ce dimorphisme sexuel. Nous avons analysé les effets du 17-oestradiol (E2) sur le développement et les fonctions effectrices des cellules dendritiques (DC). Dans un premier temps, nous avons montré dans un modèle in vitro que l'E2, par l'activation des récepteurs aux œstrogènes (ER), était essentiel à la différenciation et à l'acquisition des fonctions des DC. Nous avons démontré que les DC différenciées en absence d'E2 présentaient un phénotype immature associé un défaut d'activation des lymphocytes T CD4. Nous avons ensuite analysé l'effet de l'E2 sur une autre population de DC, les DC plasmacytoïdes (pDC) dont l'activation et la production d'IFN-I sont impliquées dans le développement de maladies auto-immunes telles que le LED. Il avait été rapporté que les pDC de femmes produisaient plus d'IFN-I en réponse à l'activation des TLR. Nous avons pu montrer que cette différence était attribuable aux œstrogènes. Nous avons démontré chez la souris que, l'ovariectomie conduisait à une diminution de la production de cytokines par les pDC après activation des TLR, alors que le traitement à l'E2 l'amplifiait. Cet effet était dépendant de la signalisation de l'ER dans le compartiment hématopoïétique. Nous avons pu confirmer ces résultats dans une étude clinique. Nos travaux montrent que les œstrogènes sont des modulateurs importants du développement et des fonctions effectrices de différentes populations de DC. Nous avons mis en évidence des effets pro-inflammatoires sur les fonctions des DC, qui pourraient expliquer les différences observées dans l'immunité et l'auto-immunité entre les sexes.Epidemiological data show sex differences in immunity. Women have stronger immune responses than men and are less susceptible to infection but, in turn, develop more frequent autoimmune diseases such as systemic lupus erythematosus (SLE). Data in the literature suggest that estrogen contributes to sexual dimorphism. We analyzed the effects of 17-estradiol (E2) on the development and effector functions of dendritic cells (DC). We first show in an in vitro model that E2, by activating estrogen receptor (ER) was essential for the differentiation and acquisition of DC functions. We demonstrate that DC differentiated in the absence of E2 had an immature phenotype associated with a deficiency in CD4+ T cell activation. We then analyzed the effect of E2 on a different population of DC, plasmacytoid DC (pDC), whose activation and production of IFN-I are involved in the development of autoimmune diseases such as SLE. It was reported that women pDC produced more IFN-I in response to TLR activation. Here, we have show that this difference is due to estrogen. We demonstrated, in mice, that ovariectomy led to a decrease in cytokine production by pDCs after TLR activation, whereas E2 treatment amplified it. This effect was dependent on ER signaling in the hematopoietic compartment. We were able to confirm these results in a clinical studying in which post-menopausal women treated with E2 showed a markedly enhanced TLR-7- and TLR-9-dependent production of IFN- by pDCs stimulated by synthetic ligands or by nucleic acid-containing immune complexes. In conclusion, our work shows that estrogens are important modulators of development and effector functions of several DC populations. We have highlighted the pro-inflammatory effect of E2 on the functions of DC, which may account for sex-based differences in autoimmune and infectious diseases

    Physiological Regulation of Innate Lymphoid Cells

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    Discovery of innate lymphoid cells (ILCs) have provoked a paradigm shift in our understanding of the immune protection. Their constitutive presence and activity at the body's barrier surfaces ensure the maintenance of the tissue homeostasis and immune protection. This complex family has distinct and non-redundant functions that can have both beneficial and detrimental effects on disease outcome. The capacity of ILCs to perform their function effectively relies on their ability to sense and integrate intrinsic and extrinsic signals. Recent studies have shown that ILCs are not only sensitive to pathogen-derived stimuli but are also very well equipped to sense host-derived signals such as neuropeptides, hormones, and metabolites. The integration of these signals represents a complex and constant cross-talk between the immune system and the physiological systems of the body, including the nervous, endocrine, digestive, and reproductive systems. The physiological regulation of ILCs constitutes an important step in our understanding of the events leading to the protective and pathological properties of these cells. This review summarizes the recent advances in the understanding of the regulation of ILCs by physiological signals and their consequences on the maintenance of tissue homeostasis

    Subset- and tissue-defined STAT5 thresholds control homeostasis and function of innate lymphoid cells

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    Innate lymphoid cells (ILCs) patrol environmental interfaces to defend against infection and protect barrier integrity. Using a genetic tuning model, we demonstrate that the signal-dependent transcription factor (TF) STAT5 is critical for accumulation of all known ILC subsets in mice and reveal a hierarchy of STAT5 dependency for populating lymphoid and nonlymphoid tissues. We apply transcriptome and genomic distribution analyses to define a STAT5 gene signature in natural killer (NK) cells, the prototypical ILC subset, and provide a systems-based molecular rationale for its key functions downstream of IL-15. We also uncover surprising features of STAT5 behavior, most notably the wholesale redistribution that occurs when NK cells shift from tonic signaling to acute cytokine-driven signaling, and genome-wide coordination with T-bet, another key TF in ILC biology. Collectively, our data position STAT5 as a central node in the TF network that instructs ILC development, homeostasis, and function and provide mechanistic insights on how it works at cellular and molecular levels

    Innate immunodeficiency following genetic ablation of Mcl1 in natural killer cells

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    The cytokine IL-15 is required for natural killer (NK) cell homeostasis; however, the intrinsic mechanism governing this requirement remains unexplored. Here we identify the absolute requirement for myeloid cell leukaemia sequence-1 (Mcl1) in the sustained survival of NK cells in vivo. Mcl1 is highly expressed in NK cells and regulated by IL-15 in a dose-dependent manner via STAT5 phosphorylation and subsequent binding to the 3'-UTR of Mcl1. Specific deletion of Mcl1 in NK cells results in the absolute loss of NK cells from all tissues owing to a failure to antagonize pro-apoptotic proteins in the outer mitochondrial membrane. This NK lymphopenia results in mice succumbing to multiorgan melanoma metastases, being permissive to allogeneic transplantation and being resistant to toxic shock following polymicrobial sepsis challenge. These results clearly demonstrate a non-redundant pathway linking IL-15 to Mcl1 in the maintenance of NK cells and innate immune responses in vivo

    Mediators of lifestyle behaviour changes in obese pregnant women. Secondary analyses from the DALI lifestyle randomised controlled trial

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    A better understanding of what drives behaviour change in obese pregnant overweight women is needed to improve the effectiveness of lifestyle interventions in this group at risk for gestational diabetes (GDM). Therefore, we assessed which factors mediated behaviour change in the Vitamin D and Lifestyle Intervention for GDM Prevention (DALI) Lifestyle Study. A total of 436 women, with pre-pregnancy body mass index ≥29 kg/m 2 , ≤19 + 6 weeks of gestation and without GDM, were randomised for counselling based on motivational interviewing (MI) on healthy eating and physical activity, healthy eating alone, physical activity alone, or to a usual care group. Lifestyle was measured at baseline, and at 24–28 and 35–37 weeks of gestation. Outcome expectancy, risk perception, task self-efficacy and social support were measured at those same time points and considered as possible mediators of intervention effects on lifestyle. All three interventions resulted in increased positive outcome expectancy for GDM reduction, perceived risk to the baby and increased task self-efficacy. The latter mediated intervention effects on physical activity and reduced sugared drink consumption. In conclusion, our MI intervention was successful in increasing task self-efficacy, which was related to improved health behaviours

    Blockade of the co-inhibitory molecule PD-1 unleashes ILC2-dependent antitumor immunity in melanoma.

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    Group 2 innate lymphoid cells (ILC2s) are essential to maintain tissue homeostasis. In cancer, ILC2s can harbor both pro-tumorigenic and anti-tumorigenic functions, but we know little about their underlying mechanisms or whether they could be clinically relevant or targeted to improve patient outcomes. Here, we found that high ILC2 infiltration in human melanoma was associated with a good clinical prognosis. ILC2s are critical producers of the cytokine granulocyte-macrophage colony-stimulating factor, which coordinates the recruitment and activation of eosinophils to enhance antitumor responses. Tumor-infiltrating ILC2s expressed programmed cell death protein-1, which limited their intratumoral accumulation, proliferation and antitumor effector functions. This inhibition could be overcome in vivo by combining interleukin-33-driven ILC2 activation with programmed cell death protein-1 blockade to significantly increase antitumor responses. Together, our results identified ILC2s as a critical immune cell type involved in melanoma immunity and revealed a potential synergistic approach to harness ILC2 function for antitumor immunotherapies

    CCR2 defines in vivo development and homing of IL-23-driven GM-CSF-producing Th17 cells

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    Published 29 October 2015IL-17-producing helper T (Th17) cells are critical for host defense against extracellular pathogens but also drive numerous autoimmune diseases. Th17 cells that differ in their inflammatory potential have been described including IL-10-producing Th17 cells that are weak inducers of inflammation and highly inflammatory, IL-23-driven, GM-CSF/IFNγ-producing Th17 cells. However, their distinct developmental requirements, functions and trafficking mechanisms in vivo remain poorly understood. Here we identify a temporally regulated IL-23-dependent switch from CCR6 to CCR2 usage by developing Th17 cells that is critical for pathogenic Th17 cell-driven inflammation in experimental autoimmune encephalomyelitis (EAE). This switch defines a unique in vivo cell surface signature (CCR6(-)CCR2(+)) of GM-CSF/IFNγ-producing Th17 cells in EAE and experimental persistent extracellular bacterial infection, and in humans. Using this signature, we identify an IL-23/IL-1/IFNγ/TNFα/T-bet/Eomesodermin-driven circuit driving GM-CSF/IFNγ-producing Th17 cell formation in vivo. Thus, our data identify a unique cell surface signature, trafficking mechanism and T-cell intrinsic regulators of GM-CSF/IFNγ-producing Th17 cells.Ervin E. Kara, Duncan R. McKenzie, Cameron R. Bastow, Carly E. Gregor, Kevin A. Fenix, Abiodun D. Ogunniyi, James C. Paton, Matthias Mack, Diana R. Pombal, Cyrill Seillet, Be, ne, dicte Dubois, Adrian Liston, Kelli P.A. MacDonald, Gabrielle T. Belz, Mark J. Smyth, Geoffrey R. Hill, Iain Comerford and Shaun R. McCol

    Androgen signaling negatively controls group 2 innate lymphoid cells

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    Prevalence of asthma is higher in women than in men, but the mechanisms underlying this sex bias are unknown. Group 2 innate lymphoid cells (ILC2s) are key regulators of type 2 inflammatory responses. Here, we show that ILC2 development is greatly influenced by male sex hormones. Male mice have reduced numbers of ILC2 progenitors (ILC2Ps) and mature ILC2s in peripheral tissues compared with females. In consequence, males exhibit reduced susceptibility to allergic airway inflammation in response to environmental allergens and less severe IL-33-driven lung inflammation, correlating with an impaired expansion of lung ILC2s. Importantly, orchiectomy, but not ovariectomy, abolishes the sex differences in ILC2 development and restores IL-33-mediated lung inflammation. ILC2Ps express the androgen receptor (AR), and AR signaling inhibits their differentiation into mature ILC2s. Finally, we show that hematopoietic AR expression limits IL-33-driven lung inflammation through a cell-intrinsic inhibition of ILC2 expansion. Thus, androgens play a crucial protective role in type 2 airway inflammation by negatively regulating ILC2 homeostasis, thereby limiting their capacity to expand locally in response to IL-33.PMC546100

    Bcl11b sets pro-T cell fate by site-specific cofactor recruitment and by repressing Id2 and Zbtb16

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    Multipotent progenitor cells confirm their T cell–lineage identity in the CD4^–CD8^– double-negative (DN) pro-T cell DN2 stages, when expression of the essential transcription factor Bcl11b begins. In vivo and in vitro stage-specific deletions globally identified Bcl11b-controlled target genes in pro-T cells. Proteomics analysis revealed that Bcl11b associated with multiple cofactors and that its direct action was needed to recruit those cofactors to selective target sites. Regions near functionally regulated target genes showed enrichment for those sites of Bcl11b-dependent recruitment of cofactors, and deletion of individual cofactors relieved the repression of many genes normally repressed by Bcl11b. Runx1 collaborated with Bcl11b most frequently for both activation and repression. In parallel, Bcl11b indirectly regulated a subset of target genes by a gene network circuit via the transcription inhibitor Id2 (encoded by Id2) and transcription factor PLZF (encoded by Zbtb16); Id2 and Zbtb16 were directly repressed by Bcl11b, and Id2 and PLZF controlled distinct alternative programs. Thus, our study defines the molecular basis of direct and indirect Bcl11b actions that promote T cell identity and block alternative potentials
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