HLA A*24:02–restricted T cell receptors cross-recognize bacterial and preproinsulin peptides in type 1 diabetes
Garry Dolton, Anna Bulek, Aaron Wall, Hannah Thomas, Jade R. Hopkins, Cristina Rius, Sarah A.E. Galloway, Thomas Whalley, Li Rong Tan, Théo Morin, Nader Omidvar, Anna Fuller, Katie Topley, Md Samiul Hasan, Shikha Jain, Nirupa D’Souza, Thomas Hodges-Hoyland, the TIRID Consortium, Owen B. Spiller, Deborah Kronenberg-Versteeg, Barbara Szomolay, Hugo A. van den Berg, Lucy C. Jones, Mark Peakman, David K. Cole, Pierre J. Rizkallah, Andrew K. Sewell
Garry Dolton, Anna Bulek, Aaron Wall, Hannah Thomas, Jade R. Hopkins, Cristina Rius, Sarah A.E. Galloway, Thomas Whalley, Li Rong Tan, Théo Morin, Nader Omidvar, Anna Fuller, Katie Topley, Md Samiul Hasan, Shikha Jain, Nirupa D’Souza, Thomas Hodges-Hoyland, the TIRID Consortium, Owen B. Spiller, Deborah Kronenberg-Versteeg, Barbara Szomolay, Hugo A. van den Berg, Lucy C. Jones, Mark Peakman, David K. Cole, Pierre J. Rizkallah, Andrew K. Sewell
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Research Article Autoimmunity Immunology

HLA A*24:02–restricted T cell receptors cross-recognize bacterial and preproinsulin peptides in type 1 diabetes

Abstract

CD8+ T cells destroy insulin-producing pancreatic β cells in type 1 diabetes through HLA class I–restricted presentation of self-antigens. Combinatorial peptide library screening was used to produce a preferred peptide recognition landscape for a patient-derived T cell receptor (TCR) that recognized the preproinsulin-derived (PPI-derived) peptide sequence LWMRLLPLL in the context of disease risk allele HLA A*24:02. Data were used to generate a strong superagonist peptide, enabling production of an autoimmune HLA A*24:02–peptide–TCR structure by crystal seeding. TCR binding to the PPI epitope was strongly focused on peptide residues Arg4 and Leu5, with more flexibility at other positions, allowing the TCR to strongly engage many peptides derived from pathogenic bacteria. We confirmed an epitope from Klebsiella that was recognized by PPI-reactive T cells from 3 of 3 HLA A*24:02+ patients. Remarkably, the same epitope selected T cells from 7 of 8 HLA A*24+ healthy donors that cross-reacted with PPI, leading to recognition and killing of HLA A*24:02+ cells expressing PPI. These data provide a mechanism by which molecular mimicry between pathogen and self-antigens could have resulted in the breaking of self-tolerance to initiate disease.

Authors

Garry Dolton, Anna Bulek, Aaron Wall, Hannah Thomas, Jade R. Hopkins, Cristina Rius, Sarah A.E. Galloway, Thomas Whalley, Li Rong Tan, Théo Morin, Nader Omidvar, Anna Fuller, Katie Topley, Md Samiul Hasan, Shikha Jain, Nirupa D’Souza, Thomas Hodges-Hoyland, the TIRID Consortium, Owen B. Spiller, Deborah Kronenberg-Versteeg, Barbara Szomolay, Hugo A. van den Berg, Lucy C. Jones, Mark Peakman, David K. Cole, Pierre J. Rizkallah, Andrew K. Sewell

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Figure 6

Klebsiella tetramers co-select PPI-specific T cells in nondiabetic donors.

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Klebsiella tetramers co-select PPI-specific T cells in nondiabetic dono...
(A) PBMCs from 8 HLA A*24+ healthy donors were enriched in parallel with HLA A*24:02 Klebsiella SLPRLFPLL or CMV-AYAQKIFKIL PE-conjugated tetramers and anti-PE magnetic beads. After 2 weeks of expansion with allogeneic PBMCs and PHA, the T cell lines were stained with irrelevant (HLA A24:02 AYAAAAAAL; not shown in the schematic), PPI (LWMRLLPLL), and Klebsiella or CMV (depending on the enrichment) tetramers. (B) Tetramer staining of enriched T cell lines from donor BB64. Percentage tetramer+ is shown. (C) Percentage of Kleb, PPI, and irrelevant tetramer staining for Kleb tetramer–enriched lines from 7 of 8 donors. Donor BB72 did not have Kleb T cells, so those data are not shown. Donor BB64 staining is shown in B. Performed as single-staining conditions. (D) Percentage of CMV, PPI, and irrelevant tetramer staining for CMV tetramer–enriched lines from 7 of 8 donors. Donor BB64 staining shown in B. Performed as single-staining conditions.