Tom Van Belle scite author profile

OBJECTIVE Interleukin (IL)-21 is a type 1 cytokine that has been implicated in the pathogenesis of type 1 diabetes via the unique biology of the nonobese diabetic (NOD) mouse strain. The aim of this study was to investigate a causal role for IL-21 in type 1 diabetes. RESEARCH DESIGN AND METHODS We generated IL-21R–deficient NOD mice and C57Bl/6 mice expressing IL-21 in pancreatic β-cells, allowing the determination of the role of insufficient and excessive IL-21 signaling in type 1 diabetes. RESULTS Deficiency in IL-21R expression renders NOD mice resistant to insulitis, production of insulin autoantibodies, and onset of type 1 diabetes. The lymphoid compartment in IL-21R −/− NOD is normal and does not contain an increased regulatory T-cell fraction or diminished effector cytokine responses. However, we observed a clear defect in autoreactive effector T-cells in IL-21R −/− NOD by transfer experiments. Conversely, overexpression of IL-21 in pancreatic β-cells induced inflammatory cytokine and chemokines, including IL-17A, IL17F, IFN-γ, monocyte chemoattractant protein (MCP)-1, MCP-2, and interferon-inducible protein-10 in the pancreas. The ensuing leukocytic infiltration in the islets resulted in destruction of β-cells and spontaneous type 1 diabetes in the normally diabetes-resistant C57Bl/6 and NOD × C57Bl/6 backgrounds. CONCLUSIONS This work provides demonstration of the essential prodiabetogenic activities of IL-21 on diverse genetic backgrounds (NOD and C57BL/6) and indicates that IL-21 blockade could be a promising strategy for interventions in human type 1 diabetes.

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1,25-Dihydroxyvitamin D3 Promotes Tolerogenic Dendritic Cells with Functional Migratory Properties in NOD Mice

Ferreira

Gysemans

Demengeot

et al. 2014

114

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The biologically active form of vitamin D, 1,25-dihydroxyvitamin D3 [1,25(OH)2D3], is able to promote the generation of tolerogenic mature dendritic cells (mDCs) with an impaired ability to activate autoreactive T cells. These cells could represent a reliable tool for the promotion or restoration of Ag-specific tolerance through vaccination strategies, for example in type 1 diabetes patients. However, successful transfer of 1,25(OH)2D3-treated mDCs (1,25D3-mDCs) depends on the capacity of 1,25(OH)2D3 to imprint a similar tolerogenic profile in cells derived from diabetes-prone donors as from diabetes-resistant donors. In this study, we examined the impact of 1,25(OH)2D3 on the function and phenotype of mDCs originating from healthy (C57BL/6) and diabetes-prone (NOD) mice. We show that 1,25(OH)2D3 is able to imprint a phenotypic tolerogenic profile on DCs derived from both mouse strains. Both NOD- and C57BL/6-derived 1,25D3-mDCs decreased the proliferation and activation of autoreactive T cells in vitro, despite strain differences in the regulation of cytokine/chemokine expression. In addition, 1,25D3-mDCs from diabetes-prone mice expanded CD25+Foxp3+ regulatory T cells and induced intracellular IL-10 production by T cells in vitro. Furthermore, 1,25D3-mDCs exhibited an intact functional migratory capacity in vivo that favors homing to the liver and pancreas of adult NOD mice. More importantly, when cotransferred with activated CD4+ T cells into NOD.SCID recipients, 1,25D3-mDCs potently dampened the proliferation of autoreactive donor T cells in the pancreatic draining lymph nodes. Altogether, these results argue for the potential of 1,25D3-mDCs to restore Ag-specific immune tolerance and arrest autoimmune disease progression in vivo.

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Effects of vitamin D on antigen-specific and non-antigen-specific immune modulation: relevance for type 1 diabetes

et al. 2012

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Vitamin D is a fat-soluble precursor of the circulating 25-hydroxyvitamin D₃ (25(OH)D₃)which can be converted by the 1α-hydroxylase (1α(OH)ase) enzyme into the bioactive hormonal metabolite 1,25-dihydroxyvitamin D₃ (1,25(OH)₂D₃), generally known to promote bone mineralization through its ability to enhance calcium absorption from the gut. Importantly, in humans, vitamin D is mainly derived from endogenous production of vitamin D₃ from ultraviolet (UV) radiation exposure to the skin while a small part (<10%) is obtained via dietary intake of dairy products and fatty fish (1). Taking these factors into account, geographic distribution and seasonality, skin pigmentation, age, and lifestyle may predispose certain populations to be at a higher risk of developing vitamin D insufficiency or deficiency (2). The first valid reports correlating the importance of an adequate vitamin D status to optimal human health originate from the early part of the 20th century, when vitamin D was described to prevent and treat the bone disease rickets. Since then, the findings that vitamin D receptors (VDR) are present in many body tissues and that vitamin D metabolizing enzymes can be found in various cells outside the kidney, including the intestine, prostate, immune cells, and within the skin itself (reviewed in reference 3), have revolutionized the vitamin D business. In this review, we will mainly focus on vitamin D as a component of immune regulation and on the role of vitamin D in antigen-specific and non-specific therapies with potential relevance for type 1 diabetes (T1D).

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Immunosuppression in islet transplantation

Belle¹,

Herrath²

2008

J. Clin. Invest.

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Antigen Presentation by Local Macrophages Promotes Nonallergic Airway Responses in Sensitized Mice

Pynaert

Rottiers²,

Haegeman³

et al. 2003

Am J Respir Cell Mol Biol

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Local inflammatory responses involve relocating immune functions generated by previous immunization to confined parts of the body, and hence are presumed to reflect the prevailing systemic immune bias. To verify to what extent local antigen-presenting cells (APCs) may modulate immune inflammation, we analyzed the consequences of antigen presentation by macrophages on Th2-dependent airway inflammation in ovalbumin (OVA)-sensitized mice. In contrast to challenge with free OVA, which triggers airway eosinophilia and Th2 cell recruitment, intratracheal instillation of immortalized spleen macrophages (Mf4/4 cells), pulsed with OVA, promoted a nonallergic airway response featuring recruitment of interferon-gamma-producing Th1 cells. Combining OVA-Mf4/4 instillation with OVA inhalation strongly reduced airway eosinophilia. Inflammation repression persisted after secondary OVA challenge and depended on the antigen-presenting ability of the macrophages. Arguing against Th1-mediated counter-regulation, Th1/Th2 ratios remained unaltered in macrophage-treated/OVA-challenged mice. In contrast, levels of interleukin-4 and interleukin-13 mRNA in lung tissue CD4+ T cells were strongly downregulated, indicating a suppression of Th2 cell activation. These results document a role for local macrophages/APCs in controlling the nature and intensity of local immune inflammatory responses. The resulting segregation of systemic and local levels of immune reactivity may enable local inflammation tolerance; it is a nonallergic airway response despite systemic sensitization.

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Tom Van Belle

Interleukin-21 Is Required for the Development of Type 1 Diabetes in NOD Mice

1,25-Dihydroxyvitamin D3 Promotes Tolerogenic Dendritic Cells with Functional Migratory Properties in NOD Mice

Effects of vitamin D on antigen-specific and non-antigen-specific immune modulation: relevance for type 1 diabetes

Immunosuppression in islet transplantation

Antigen Presentation by Local Macrophages Promotes Nonallergic Airway Responses in Sensitized Mice

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