Islet-autoreactive CD4+ T cells are linked with response to alefacept in type 1 diabetes
Elisa Balmas, Janice Chen, Alex K. Hu, Hannah A. DeBerg, Mario G. Rosasco, Vivian H. Gersuk, Elisavet Serti, Cate Speake, Carla J. Greenbaum, Gerald T. Nepom, Peter S. Linsley, Karen Cerosaletti
Elisa Balmas, Janice Chen, Alex K. Hu, Hannah A. DeBerg, Mario G. Rosasco, Vivian H. Gersuk, Elisavet Serti, Cate Speake, Carla J. Greenbaum, Gerald T. Nepom, Peter S. Linsley, Karen Cerosaletti
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Research Article

Islet-autoreactive CD4+ T cells are linked with response to alefacept in type 1 diabetes

Abstract

Variation in the preservation of β cell function in clinical trials in type 1 diabetes (T1D) has emphasized the need to define biomarkers to predict treatment response. The T1DAL trial targeted T cells with alefacept (LFA-3–Ig) and demonstrated C-peptide preservation in approximately 30% of new-onset T1D individuals. We analyzed islet antigen–reactive (IAR) CD4+ T cells in PBMC samples collected prior to treatment from alefacept- and placebo-treated individuals using flow cytometry and single-cell RNA sequencing. IAR CD4+ T cells at baseline had heterogeneous phenotypes. Transcript profiles formed phenotypic clusters of cells along a trajectory based on increasing maturation and activation, and T cell receptor (TCR) chains showed clonal expansion. Notably, the frequency of IAR CD4+ T cells with a memory phenotype and a unique transcript profile (cluster 3) were inversely correlated with C-peptide preservation in alefacept-treated, but not placebo-treated, individuals. Cluster 3 cells had a proinflammatory phenotype characterized by expression of the transcription factor BHLHE40 and the cytokines GM-CSF and TNF-α, and shared TCR chains with effector memory–like clusters. Our results suggest IAR CD4+ T cells as a potential baseline biomarker of response to therapies targeting the CD2 pathway and warrant investigation for other T cell–related therapies.

Authors

Elisa Balmas, Janice Chen, Alex K. Hu, Hannah A. DeBerg, Mario G. Rosasco, Vivian H. Gersuk, Elisavet Serti, Cate Speake, Carla J. Greenbaum, Gerald T. Nepom, Peter S. Linsley, Karen Cerosaletti

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Figure 3

Expanded IAR CD4+ T cells share TCRs between clusters with memory transcript profiles.

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Expanded IAR CD4+ T cells share TCRs between clusters with memory transc...
(A) Circos plots showing TCR chain junction (V-junction-J) nucleotide sequences shared between ≥2 IAR CD4+ T cells within or between clusters for all 18 participants. Plots depict sharing between cells regardless of donor HLA (all HLA DR: 993 total cells with 1,954 productive TCR chains, 122 cells with shared chains, 44 unique chains), between cells from 13 individuals carrying a DRB1*04 allele (DR4: 776 total cells with 1,535 productive TCR chains, 102 cells with shared chains), or between cells from 5 individuals with no DRB1*0401 allele (non-DR4: 217 total cells with 419 productive TCR chains, 20 cells with shared chains). Each segment in the outer circle represents an individual IAR CD4+ T cell with a TCR chain colored by cluster, as indicated in the legend. Arcs connect cells that share identical TRA and/or TRB chains; line thickness corresponds to the number of chains shared between each cell. In DR4 individuals there were 71 cells with 2 shared chains (primarily TRA-TRB pairs), 22 cells that shared 1 chain (TRB > TRA), and 9 cells sharing >2 chains per cell. Of the expanded cells, 88 shared TCR chains within donors (private) and 12 were shared between donors (public). (B) Circos plots as in A showing TCR chains shared between cells in clusters 1–5 in DR4 individuals. Each plot represents TCR chains in cells from an individual cluster that are shared with cells in other clusters, as indicated by the arcs connecting cells between clusters. Expanded cells comprised approximately 2%, 14%, 26%, 23%, and 35% of cells in clusters 1–5, respectively.