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Antigen Presentation by B Cells Enables Epitope Spreading Across an Mhc Barrier

74 Pages Posted: 23 May 2022 Publication Status: Review Complete

See all articles by Cecilia Fahlquist-Hagert

Cecilia Fahlquist-Hagert

Aarhus University - Laboratory for Lymphocyte Biology

Thomas R. Wittenborn

Aarhus University - Laboratory for Lymphocyte Biology

Ewa Terczyńska-Dyla

Aarhus University - Laboratory for Lymphocyte Biology

Lasse F. Voss

Aarhus University - Laboratory for Lymphocyte Biology

Mathias K. Pedersen

Aarhus University - Laboratory for Lymphocyte Biology

Alexey Ferapontov

Aarhus University - Laboratory for Lymphocyte Biology

Gudrun Winther

Aarhus University - Laboratory for Lymphocyte Biology

Lisbeth Jensen

Aarhus University - Laboratory for Lymphocyte Biology

Jinrong Huang

Aarhus University - DREAM Laboratory for Applied Genome Technologies

Yonglun Luo

BGI-Shenzhen - Lars Bolund Institute of Regenerative Medicine; Aarhus University - Department of Biomedicine

Lin Lin

Aarhus University - DREAM Laboratory for Applied Genome Technologies

Søren Egedal Degn

Aarhus University - Laboratory for Lymphocyte Biology

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Abstract

A progressive increase in the breadth and specificity of autoantibodies over time, termed epitope spreading, drives pathogenic targeting of an ever-widening repertoire of self-components in many autoimmune diseases. Ostensibly, this progressive inclusion of additional B cell clones into an ongoing autoreactive response can occur through linked recognition, whereby proto-autoreactive B cells recognize distinct antigenic epitopes, which carry shared T cell epitopes. In a murine model displaying epitope spreading resembling that observed in systemic lupus erythematosus, we find that the epitope spreading process is compartmentalized by MHC. Antigen presentation by B cells carrying two MHC haplotypes can bridge the MHC barrier between two compartments of B cells that do not share MHC haplotypes, by communicating with two separate pools of MHC-restricted T cells. This leads to inclusion of distinct and diverse B cell reactivities in germinal centers. Our findings demonstrate a formidable capacity of B cells to drive the autoreactive response.

Keywords: B cells, T cells, germinal centers, Epitope Spreading, MHC, H-2, HLA, Autoimmunity, Autoantibodies, Systemic Lupus Erythematosus

Suggested Citation

Fahlquist-Hagert, Cecilia and Wittenborn, Thomas R. and Terczyńska-Dyla, Ewa and Voss, Lasse F. and Pedersen, Mathias K. and Ferapontov, Alexey and Winther, Gudrun and Jensen, Lisbeth and Huang, Jinrong and Luo, Yonglun and Luo, Yonglun and Lin, Lin and Degn, Søren Egedal, Antigen Presentation by B Cells Enables Epitope Spreading Across an Mhc Barrier. Available at SSRN: https://ssrn.com/abstract=4117922 or http://dx.doi.org/10.2139/ssrn.4117922
This version of the paper has not been formally peer reviewed.

Cecilia Fahlquist-Hagert

Aarhus University - Laboratory for Lymphocyte Biology ( email )

Denmark

Thomas R. Wittenborn

Aarhus University - Laboratory for Lymphocyte Biology ( email )

Ewa Terczyńska-Dyla

Aarhus University - Laboratory for Lymphocyte Biology ( email )

Lasse F. Voss

Aarhus University - Laboratory for Lymphocyte Biology ( email )

Mathias K. Pedersen

Aarhus University - Laboratory for Lymphocyte Biology ( email )

Alexey Ferapontov

Aarhus University - Laboratory for Lymphocyte Biology ( email )

Gudrun Winther

Aarhus University - Laboratory for Lymphocyte Biology ( email )

Lisbeth Jensen

Aarhus University - Laboratory for Lymphocyte Biology ( email )

Jinrong Huang

Aarhus University - DREAM Laboratory for Applied Genome Technologies ( email )

Denmark

Yonglun Luo

BGI-Shenzhen - Lars Bolund Institute of Regenerative Medicine ( email )

China

Aarhus University - Department of Biomedicine ( email )

Aarhus
Denmark

Lin Lin

Aarhus University - DREAM Laboratory for Applied Genome Technologies ( email )

Denmark

Søren Egedal Degn (Contact Author)

Aarhus University - Laboratory for Lymphocyte Biology ( email )

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