Antibodies from a Patient with Type 1 Diabetes and Celiac Disease Bind to Macrophages that Express the Scavenger Receptor CD163

Antibodies against the wheat storage globulin Glo-3A from a patient with both type 1 diabetes (T1D) and celiac disease were enriched to identify potential molecular mimicry between wheat antigens and T1D target tissues. Recombinant Glo-3A was used to enrich anti-Glo-3A immunoglobulin G antibodies from plasma by batch affinity chromatography. Rat jejunum and pancreas, as well as human duodenum and monocytes were probed, and binding was evaluated by immunohistochemistry and confocal microscopy. Glo-3A-enriched antibodies bound to a specific subset of cells in the lamina propria of rat jejunum that co-localized mostly with a marker of resident, alternatively activated CD163-positive (CD163+) macrophages. Blood monocytes and macrophage-like cells in human duodenum were also labelled with the enriched antibodies. Blocking studies revealed that binding to CD163+macrophages was not due to cross-reactivity with anti-Glo-3A antibodies, but rather to non-Glo-3A antibodies co-purified during antibody enrichment. The novel finding of putative autoantibodies against tolerogenic intestinal CD163+macrophages suggests that regulatory macrophages were targeted in this patient with celiac disease and T1D.

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Parabacteroides distasonis enhances Type 1 Diabetes autoimmunity via molecular mimicry

10.1101/2020.10.22.350801 ◽

2020 ◽

Cited By ~ 1

Author(s):

Qian Huang ◽

I-Ting Chow ◽

Claudia Brady ◽

Amol Raisingani ◽

Danmeng Li ◽

...

Keyword(s):

Type 1 Diabetes ◽

Gut Microbiota ◽

Molecular Mimicry ◽

Nod Mice ◽

Cross Reactivity ◽

Nod Mouse ◽

Human Gut ◽

Human T Cell

ABSTRACTType 1 Diabetes (T1D) is an autoimmune disease characterized by destruction of pancreatic β-cells. Focusing on the main insulin epitope, insulin B-chain 9-23 (insB:9-23), we explored whether a microbial insB:9-23 mimic could modulate T1D. We now demonstrate that a microbial insB:9-23 mimic of Parabacteroides distasonis, a human gut commensal, exclusively stimulates non-obese diabetic (NOD) mouse T cells specific to insB:9-23. Indeed, immunization of NOD mice with either the bacterial mimic peptide or insB:9-23 further verified the cross-reactivity in vivo. Modeling P. distasonis peptide revealed a potential pathogenic register 3 binding. P. distasonis colonization of the female NOD mice gut accelerated T1D onset. In addition, adoptive transfer of splenocytes from NOD mice colonized with P. distasonis to NOD.SCID recipients conferred the enhanced disease phenotype. Integration analysis of published infant T1D gut microbiome data revealed that P. distasonis peptide is not present in the gut microbiota in the first year of life of infants that eventually develop T1D. Furthermore, P. distasonis peptide can stimulate human T cell clones specific to insB:9-23 and T1D patients demonstrated a strong humoral immune response to P. distasonis than controls. Taken together, our studies define a potential molecular mimicry link between T1D pathogenesis and the gut microbiota.One Sentence SummaryThe human gut commensal bacterium, Parabacteroides distasonis, accelerates type 1 diabetes in the NOD mouse model of the disease and involves expression of an insulin B:9-23 epitope mimic, supporting a potential disease mechanism involving molecular mimicry.

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