Leona Gabryšová scite author profile

1α,25-Dihydroxyvitamin D3 (1α25VitD3) has potent immunomodulatory properties. We have previously demonstrated that 1α25VitD3 promotes human and murine IL-10-secreting CD4 + T cells. Because of the clinical relevance of this observation, we characterized these cells further and investigated their relationship with Foxp3 + regulatory T (Treg) cells. 1α25VitD3 increased the frequency of both Foxp3 + and IL-10 + CD4 + T cells in vitro. However, Foxp3 was increased at high concentrations of 1α25VitD3 and IL-10 at more moderate levels, with little coexpression of these molecules. The Foxp3 + and IL-10 + T-cell populations showed comparable suppressive activity. We demonstrate that the enhancement of Foxp3 expression by 1α25VitD3 is impaired by IL-10. 1α25VitD3 enables the selective expansion of Foxp3 + Treg cells over their Foxp3 − T-cell counterparts. Equally, 1α25VitD3 maintains Foxp3 + expression by sorted populations of human and murine Treg cells upon in vitro culture. A positive in vivo correlation between vitamin D status and CD4 + Foxp3 + T cells in the airways was observed in a severe pediatric asthma cohort, supporting the in vitro observations. In summary, we provide evidence that 1α25VitD3 enhances the frequency of both IL-10 + and Foxp3 + Treg cells. In a translational setting, these data suggest that 1α25VitD3, over a broad concentration range, will be effective in enhancing the frequency of Treg cells.Keywords: 1α,25-Dihydroxyvitamin D3 r Asthma r Immune regulation r Regulatory T cells Supporting Information available online IntroductionConsiderable interest exists in the therapeutic potential of regulatory T (Treg) cells to treat a range of immune-mediated patholoCorrespondence: Dr. Catherine M. Hawrylowicz e-mail: catherine.hawrylowicz@kcl.ac.uk gies in humans. This is partly based on evidence obtained from animal models of human disease demonstrating the capacity of Treg cells to control transplant rejection, and to successfully treat autoimmune and allergic disease [1]. Two broad therapeutic * These authors contributed equally to this work. [11]. These studies demonstrate a correlation between therapeutic efficacy and increased frequency or quantities of CD4 + CD25 + T cells, IL-10, TGF-β, and CTLA-4.Our earlier studies have highlighted the capacity of 1α25VitD3 to promote human CD4 + IL-10 secreting Treg cells (IL-10-Treg) in culture both alone [12] and in concert with glucocorticoids such as dexamethasone [13,14]. Furthermore, treatment of severe steroid refractory asthma patients with 1α25VitD3 in vivo directly increased IL-10 gene expression in CD3 + CD4 + T cells [12], and restored the impaired steroid-induced IL-10 response in CD4 + cells in vitro [14,15].The present study was designed to further investigate the mechanisms underlying the therapeutic potential of 1α25VitD3 in the context of asthmatic disease, and to determine effects on the induction of both IL-10 + and Foxp3 + T cells. Specifically, we have examined the effects of 1α25VitD3 on total, unfractionated CD4 + T-cell populations, r...

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Negative feedback control of the autoimmune response through antigen-induced differentiation of IL-10–secreting Th1 cells

Gabryšová

et al. 2009

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Regulation of the immune response to self- and foreign antigens is vitally important for limiting immune pathology associated with both infections and hypersensitivity conditions. Control of autoimmune conditions can be reinforced by tolerance induction with peptide epitopes, but the mechanism is not currently understood. Repetitive intranasal administration of soluble peptide induces peripheral tolerance in myelin basic protein (MBP)–specific TCR transgenic mice. This is characterized by the presence of anergic, interleukin (IL)-10–secreting CD4+ T cells with regulatory function (IL-10 T reg cells). The differentiation pathway of peptide-induced IL-10 T reg cells was investigated. CD4+ T cells became anergic after their second encounter with a high-affinity MBP peptide analogue. Loss of proliferative capacity correlated with a switch from the Th1-associated cytokines IL-2 and interferon (IFN)-γ to the regulatory cytokine IL-10. Nevertheless, IL-10 T reg cells retained the capacity to produce IFN-γ and concomitantly expressed T-bet, demonstrating their Th1 origin. IL-10 T reg cells suppressed dendritic cell maturation, prevented Th1 cell differentiation, and thereby created a negative feedback loop for Th1-driven immune pathology. These findings demonstrate that Th1 responses can be self-limiting in the context of peripheral tolerance to a self-antigen.

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c-Maf controls immune responses by regulating disease-specific gene networks and repressing IL-2 in CD4+ T cells

Gabryšová¹,

Alvarez-Martinez²,

Luisier³

et al. 2018

Nat Immunol

133

134

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The transcription factor c-Maf induces the anti-inflammatory cytokine IL-10 in CD4+ T cells in vitro. However, the global effects of c-Maf on diverse immune responses in vivo are unknown. Here we show that c-Maf regulates IL-10 production in CD4+ T cells in TH1 (malaria), TH2 (allergy) and TH17 (autoimmunity) disease models in vivo. Although CD4-targeted Maf-deficient mice showed greater pathology in TH1 and TH2 responses, TH17-mediated pathology was reduced, with accompanying decreased TH17 and increased Foxp3+ regulatory T cells. Bivariate genomic footprinting elucidated the c-Maf transcription factor network, including enhanced NFAT activity, leading to the identification and validation of c-Maf as a negative regulator of IL-2. Decreased Rorc resulting from c-Maf deficiency was dependent on IL-2, explaining the in vivo observations. Thus, c-Maf is a positive and negative regulator of cytokine gene expression, with context-specific effects that allow each immune response to occur in a controlled yet effective manner.

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The Regulation of IL-10 Expression

Gabryšová¹,

Howes²,

Saraiva

et al. 2014

133

140

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Interleukin (IL)-10 is an important immunoregulatory cytokine and an understanding of how IL-10 expression is controlled is critical in the design of immune intervention strategies. IL-10 is produced by almost all cell types within the innate (including macrophages, monocytes, dendritic cells (DCs), mast cells, neutrophils, eosinophils and natural killer cells) and adaptive (including CD4(+) T cells, CD8(+) T cells and B cells) immune systems. The mechanisms of IL-10 regulation operate at several stages including chromatin remodelling at the Il10 locus, transcriptional regulation of Il10 expression and post-transcriptional regulation of Il10 mRNA. In addition, whereas some aspects of Il10 gene regulation are conserved between different immune cell types, several are cell type- or stimulus-specific. Here, we outline the complexity of IL-10 production by discussing what is known about its regulation in macrophages, monocytes, DCs and CD4(+) T helper cells.

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Integrated T‐cell receptor and costimulatory signals determine TGF‐β‐dependent differentiation and maintenance of Foxp3⁺ regulatory T cells

Gabryšová¹,

Christensen²,

Wu³

et al. 2011

Eur J Immunol

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