Please use this identifier to cite or link to this item: https://biore.bio.bg.ac.rs/handle/123456789/6219
Title: Microbes as triggers and boosters of Type 1 Diabetes – Mediation by molecular mimicry
Authors: Repac, Jelana
Božić, Bojan 
Božić Nedeljković, Biljana 
Keywords: Molecular mimicry;;Type 1 diabetes;;Gut microbiota;;Heat shock proteins;;Autoantigen;;Immunoinformatics
Issue Date: Aug-2023
Rank: M21
Publisher: Elsevier
Journal: Diabetes Research and Clinical Practice
Volume: 202
Start page: 10824
Abstract: 
Aims
Type 1 diabetes is characterized by steadily increasing incidence and largely obscured pathogenesis. Molecular mimicry is well-established as trigger for different autoimmune pathologies, but obscurely explored in the context of T1D. The presented study explores the underestimated role of molecular mimicry in T1D-etiology/progression in search for etiologic factors among human pathogens and commensals.
Methods
A comprehensive immunoinformatics analysis of T1D-specific experimental T-cell epitopes across bacterial, fungal, and viral proteomes was performed, coupled with MHC-restricted mimotope validation and docking of most potent epitopes/mimotopes to T1D-high-risk MHCII molecules. In addition, re-analysis of the publicly available T1D-microbiota dataset was performed, including samples at the pre-T1D disease stage.
Results
A number of bacterial pathogens/commensals were tagged as putative T1D triggers/boosters, including ubiquitous gut residents. The prediction of most likely mimicked epitopes revealed heat-shock proteins as most potent autoantigens for autoreactive T-cell priming via molecular mimicry. Docking revealed analogous interactions for predicted bacterial mimotopes and corresponding experimental epitopes. Finally, re-analysis of T1D gut microbiota datasets prompted pre-T1D as most significantly different/dysbiotic, compared to other explored categories (T1D stage/controls).
Conclusions
Obtained results support the unrecognized role of molecular mimicry in T1D, suggesting that autoreactive T-cell priming might be the triggering factor of disease development.
URI: https://biore.bio.bg.ac.rs/handle/123456789/6219
DOI: 10.1016/j.diabres.2023.110824
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