Follicular T cells are clonally and transcriptionally distinct in B cell-driven mouse autoimmune disease

Elliot H Akama-Garren; Theo van den Broek; Lea Simoni; Carlos Castrillon; Cees E van der Poel; Michael C Carroll

doi:10.1038/s41467-021-27035-8

Follicular T cells are clonally and transcriptionally distinct in B cell-driven mouse autoimmune disease

Elliot H Akama-Garren, Theo van den Broek, Lea Simoni, Carlos Castrillon, Cees E van der Poel, Michael C Carroll

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Pathogenic autoantibodies contribute to tissue damage and clinical decline in autoimmune disease. Follicular T cells are central regulators of germinal centers, although their contribution to autoantibody-mediated disease remains unclear. Here we perform single cell RNA and T cell receptor (TCR) sequencing of follicular T cells in a mouse model of autoantibody-mediated disease, allowing for analyses of paired transcriptomes and unbiased TCRαβ repertoires at single cell resolution. A minority of clonotypes are preferentially shared amongst autoimmune follicular T cells and clonotypic expansion is associated with differential gene signatures in autoimmune disease. Antigen prediction using algorithmic and machine learning approaches indicates convergence towards shared specificities between non-autoimmune and autoimmune follicular T cells. However, differential autoimmune transcriptional signatures are preserved even amongst follicular T cells with shared predicted specificities. These results demonstrate that follicular T cells are phenotypically distinct in B cell-driven autoimmune disease, providing potential therapeutic targets to modulate autoantibody development.

Original language	English
Article number	6687
Pages (from-to)	6687
Journal	Nature Communications
Volume	12
Issue number	1
DOIs	https://doi.org/10.1038/s41467-021-27035-8
Publication status	Published - Dec 2021
Externally published	Yes

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title = "Follicular T cells are clonally and transcriptionally distinct in B cell-driven mouse autoimmune disease",

abstract = "Pathogenic autoantibodies contribute to tissue damage and clinical decline in autoimmune disease. Follicular T cells are central regulators of germinal centers, although their contribution to autoantibody-mediated disease remains unclear. Here we perform single cell RNA and T cell receptor (TCR) sequencing of follicular T cells in a mouse model of autoantibody-mediated disease, allowing for analyses of paired transcriptomes and unbiased TCRαβ repertoires at single cell resolution. A minority of clonotypes are preferentially shared amongst autoimmune follicular T cells and clonotypic expansion is associated with differential gene signatures in autoimmune disease. Antigen prediction using algorithmic and machine learning approaches indicates convergence towards shared specificities between non-autoimmune and autoimmune follicular T cells. However, differential autoimmune transcriptional signatures are preserved even amongst follicular T cells with shared predicted specificities. These results demonstrate that follicular T cells are phenotypically distinct in B cell-driven autoimmune disease, providing potential therapeutic targets to modulate autoantibody development.",

author = "Akama-Garren, \{Elliot H\} and \{van den Broek\}, Theo and Lea Simoni and Carlos Castrillon and \{van der Poel\}, \{Cees E\} and Carroll, \{Michael C\}",

note = "Funding Information: We thank H. Leung of the Optical Microscopy Core and J. Moore of the Flow and Imaging Cytometry Resource at the PCMM for technical assistance. E.A.G. was supported by NIH grants T32GM007753, T32AI007529, and F30AI160909. T.v.d.B. was supported by the H2020-MSCA-IF-GF project BEAT No. 796988. M.C.C. is supported by NIH R01AR074105. Publisher Copyright: {\textcopyright} 2021, The Author(s).",

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doi = "10.1038/s41467-021-27035-8",

language = "English",

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AU - van den Broek, Theo

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AU - Castrillon, Carlos

AU - van der Poel, Cees E

AU - Carroll, Michael C

N1 - Funding Information: We thank H. Leung of the Optical Microscopy Core and J. Moore of the Flow and Imaging Cytometry Resource at the PCMM for technical assistance. E.A.G. was supported by NIH grants T32GM007753, T32AI007529, and F30AI160909. T.v.d.B. was supported by the H2020-MSCA-IF-GF project BEAT No. 796988. M.C.C. is supported by NIH R01AR074105. Publisher Copyright: © 2021, The Author(s).

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N2 - Pathogenic autoantibodies contribute to tissue damage and clinical decline in autoimmune disease. Follicular T cells are central regulators of germinal centers, although their contribution to autoantibody-mediated disease remains unclear. Here we perform single cell RNA and T cell receptor (TCR) sequencing of follicular T cells in a mouse model of autoantibody-mediated disease, allowing for analyses of paired transcriptomes and unbiased TCRαβ repertoires at single cell resolution. A minority of clonotypes are preferentially shared amongst autoimmune follicular T cells and clonotypic expansion is associated with differential gene signatures in autoimmune disease. Antigen prediction using algorithmic and machine learning approaches indicates convergence towards shared specificities between non-autoimmune and autoimmune follicular T cells. However, differential autoimmune transcriptional signatures are preserved even amongst follicular T cells with shared predicted specificities. These results demonstrate that follicular T cells are phenotypically distinct in B cell-driven autoimmune disease, providing potential therapeutic targets to modulate autoantibody development.

AB - Pathogenic autoantibodies contribute to tissue damage and clinical decline in autoimmune disease. Follicular T cells are central regulators of germinal centers, although their contribution to autoantibody-mediated disease remains unclear. Here we perform single cell RNA and T cell receptor (TCR) sequencing of follicular T cells in a mouse model of autoantibody-mediated disease, allowing for analyses of paired transcriptomes and unbiased TCRαβ repertoires at single cell resolution. A minority of clonotypes are preferentially shared amongst autoimmune follicular T cells and clonotypic expansion is associated with differential gene signatures in autoimmune disease. Antigen prediction using algorithmic and machine learning approaches indicates convergence towards shared specificities between non-autoimmune and autoimmune follicular T cells. However, differential autoimmune transcriptional signatures are preserved even amongst follicular T cells with shared predicted specificities. These results demonstrate that follicular T cells are phenotypically distinct in B cell-driven autoimmune disease, providing potential therapeutic targets to modulate autoantibody development.

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Follicular T cells are clonally and transcriptionally distinct in B cell-driven mouse autoimmune disease

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