Autoreactive T cell receptors with shared germline-like α chains in type 1 diabetes
Peter S. Linsley, Fariba Barahmand-pour-Whitman, Elisa Balmas, Hannah A. DeBerg, Kaitlin J. Flynn, Alex K. Hu, Mario G. Rosasco, Janice Chen, Colin O’Rourke, Elisavet Serti, Vivian H. Gersuk, Keshav Motwani, Howard R. Seay, Todd M. Brusko, William W. Kwok, Cate Speake, Carla J. Greenbaum, Gerald T. Nepom, Karen Cerosaletti
Peter S. Linsley, Fariba Barahmand-pour-Whitman, Elisa Balmas, Hannah A. DeBerg, Kaitlin J. Flynn, Alex K. Hu, Mario G. Rosasco, Janice Chen, Colin O’Rourke, Elisavet Serti, Vivian H. Gersuk, Keshav Motwani, Howard R. Seay, Todd M. Brusko, William W. Kwok, Cate Speake, Carla J. Greenbaum, Gerald T. Nepom, Karen Cerosaletti
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Autoreactive T cell receptors with shared germline-like α chains in type 1 diabetes

Abstract

Human islet antigen reactive CD4+ memory T cells (IAR T cells) play a key role in the pathogenesis of autoimmune type 1 diabetes (T1D). Using single-cell RNA sequencing (scRNA-Seq) to identify T cell receptors (TCRs) in IAR T cells, we have identified a class of TCRs that share TCRα chains between individuals (“public” chains). We isolated IAR T cells from blood of healthy, new-onset T1D and established T1D donors using multiplexed CD154 enrichment and identified paired TCRαβ sequences from 2767 individual cells. More than a quarter of cells shared TCR junctions between 2 or more cells (“expanded”), and 29/47 (~62%) of expanded TCRs tested showed specificity for islet antigen epitopes. Public TCRs sharing TCRα junctions were most prominent in new-onset T1D. Public TCR sequences were more germline like than expanded unique, or “private,” TCRs, and had shorter junction sequences, suggestive of fewer random nucleotide insertions. Public TCRα junctions were often paired with mismatched TCRβ junctions in TCRs; remarkably, a subset of these TCRs exhibited cross-reactivity toward distinct islet antigen peptides. Our findings demonstrate a prevalent population of IAR T cells with diverse specificities determined by TCRs with restricted TCRα junctions and germline-constrained antigen recognition properties. Since these “innate-like” TCRs differ from previously described immunodominant TCRβ chains in autoimmunity, they have implications for fundamental studies of disease mechanisms. Self-reactive restricted TCRα chains and their associated epitopes should be considered in fundamental and translational investigations of TCRs in T1D.

Authors

Peter S. Linsley, Fariba Barahmand-pour-Whitman, Elisa Balmas, Hannah A. DeBerg, Kaitlin J. Flynn, Alex K. Hu, Mario G. Rosasco, Janice Chen, Colin O’Rourke, Elisavet Serti, Vivian H. Gersuk, Keshav Motwani, Howard R. Seay, Todd M. Brusko, William W. Kwok, Cate Speake, Carla J. Greenbaum, Gerald T. Nepom, Karen Cerosaletti

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Figure 5

TRB junctions sharing a common public TRA junction differ in sequence but may have similar roles in binding.

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TRB junctions sharing a common public TRA junction differ in sequence b...
(A) TRB junctions that share TRA junctions show greater sequence identity than expected by chance. Numbers of TRB junctions paired with unique public and private TRA junctions were calculated from n = 72 and 165 public and private TRA junctions, respectively (Supplemental Table 3, public/private TCRs). Levenshtein distances were calculated for paired combinations of unique TRB junctions that pair with public TRA junctions (n = 31). For null sets, Levenshtein distances were calculated for TRB junctions in equal-sized, random sets of nonexpanded TRB junctions (n = 31 junctions) (Supplemental Table 3), and this was repeated n = 1000 times. Shown is a histogram representative of the median difference between real and random sets, as judged by P values from Kolmogorov-Smirnov tests. *, P value < 0.05. (B) TCR clones sharing public TRA chains with mismatched TRB junctions were functionally triggered by the same peptides. Recombinant TCR clones (Clone_271 and Clone_2062, Table 2) were transduced into primary CD4+ T cells, and proliferation was measured using a dye dilution assay following stimulation with the indicated peptides or a no-peptide control. Red font, mismatched residues. (C) Clone_271 and Clone_2062 TCR clones share similar dose-response curves for the GAD 113–132 peptide. (D) Cross-reactivity of related TCR clones, Clone_81 and Clone_566, for multiple GAD65 peptides. GAD 273–292 and GAD281–300 have overlapping sequences, but GAD 377–396 is distinct (Supplemental Table 2). (E) Dose-response curves showing cross-reactivity of Clone_81 for multiple GAD65 peptides and a nonreactive ZNT8 peptide.