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The XCL1/XCR1 axis is upregulated in type 1 diabetes and aggravates its pathogenesis
Camilla Tondello, Christine Bender, Gregory J. Golden, Deborah Puppe, Elisa Blickberndt, Monika Bayer, Giulia K. Buchmann, Josef Pfeilschifter, Malte Bachmann, Edith Hintermann, Ralf P. Brandes, Michael R. Betts, Richard A. Kroczek, Urs Christen
Camilla Tondello, Christine Bender, Gregory J. Golden, Deborah Puppe, Elisa Blickberndt, Monika Bayer, Giulia K. Buchmann, Josef Pfeilschifter, Malte Bachmann, Edith Hintermann, Ralf P. Brandes, Michael R. Betts, Richard A. Kroczek, Urs Christen
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Research Article Immunology

The XCL1/XCR1 axis is upregulated in type 1 diabetes and aggravates its pathogenesis

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Abstract

Type 1 diabetes (T1D) is precipitated by the autoimmune destruction of the insulin-producing β cells in the pancreatic islets of Langerhans. Chemokines have been identified as major conductors of islet infiltration by autoaggressive leukocytes, including antigen-presenting cells and islet autoantigen–specific T cells. We have previously generated a road map of gene expression in the islet microenvironment during T1D in a mouse model and found that most of the chemokine axes are chronically upregulated during T1D. The XCL1/XCR1 chemokine axis is of particular interest, since XCR1 is exclusively expressed on conventional DCs type 1 (cDC1) that excel by their high capacity for T cell activation. Here, we demonstrate that cDC1-expressing XCR1 are present in and around the islets of patients with T1D and of individuals with islet autoantibody positivity. Furthermore, we show that XCL1 plays an important role in the attraction of highly potent DCs expressing XCR1 to the islets in an inducible mouse model for T1D. XCL1-deficient mice display a diminished infiltration of XCR1+ cDC1 and, subsequently, a reduced magnitude and activity of islet autoantigen–specific T cells, resulting in a profound decrease in T1D incidence. Interference with the XCL1/XCR1 chemokine axis might constitute a novel therapy for T1D.

Authors

Camilla Tondello, Christine Bender, Gregory J. Golden, Deborah Puppe, Elisa Blickberndt, Monika Bayer, Giulia K. Buchmann, Josef Pfeilschifter, Malte Bachmann, Edith Hintermann, Ralf P. Brandes, Michael R. Betts, Richard A. Kroczek, Urs Christen

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Figure 7

Three-dimensional analysis of total β cell content shows more functional islets in XCL1-deficient than regular RIP-GP mice.

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Three-dimensional analysis of total β cell content shows more functional...
Total β cell content was determined by staining of the entire pancreas with anti-insulin antibody, followed by clearing of the tissue and scanning of the transparent pancreas by light sheet fluorescence microscopy. (A) Comparison between uninfected RIP-GP and LCMV-infected RIP-GP and RIP-GP × XCL1–/– mice at week 8–12 after infection. Representative images are shown. Scale bars: 200 μm. The insulin-producing β cell content (red) of the representative pancreas tissues shown are indicated as a percentage of the total pancreas volume (green autofluorescence) (Supplemental Videos 1–3). (B) Quantification of the volume of the insulin producing cells per total pancreas volume, expressed as a percentage. Data obtained from diabetic mice are displayed in red. Values are shown as mean ± SEM. P values (2-way ANOVA) and numbers of mice are indicated. (C) Islet volume analysis: islets were separated in 4 groups according to their volume. Note that 8–12 weeks after infection, XCL1-deficient mice have larger and more insulin-producing islets left than regular RIP-GP mice. Strikingly, in comparison with uninfected RIP-GP and infected XCL1-deficient RIP-GP mice, infected regular RIP-GP mice showed a massive reduction of large (>500 μm3) islets. Values are shown as mean ± SEM. P values (2-way ANOVA) and numbers of mice are indicated.

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