Global patterns of antigen receptor repertoire disruption across adaptive immune compartments in COVID-19

Magdalene Joseph; Yin Wu; Richard Dannebaum; Florian Rubelt; Iva Zlatareva; Anna Lorenc; Zhipei Gracie Du; Daniel Davies; Fernanda Kyle‐Cezar; Abhishek Das; Sarah Gee; Jeffrey Seow; Carl Graham; Dilduz Telman; Clara Bermejo; Hai Lin; Hosseinali Asgharian; Adam Laing; Irene del Molino del Barrio; Leticia Monin; Miguel Muñoz‐Ruiz; Duncan R. McKenzie; Thomas S. Hayday; Isaac Francos-Quijorna; Shraddha Kamdar; Richard Davis; Vasiliki Sofra; Florencia Cano; Efstathios Theodoridis; Lauren Martinez; Blair Merrick; Karen Bisnauthsing; Kate Brooks; Jonathan D. Edgeworth; John Cason; Christine Mant; Katie J. Doores; Pierre Vantourout; Khai Luong; Jan Berka; Adrian Hayday

doi:10.1073/pnas.2201541119

Global patterns of antigen receptor repertoire disruption across adaptive immune compartments in COVID-19

Magdalene Joseph(King's College London), Yin Wu(King's College London), Richard Dannebaum(Roche (United States)), Florian Rubelt(Roche (United States)), Iva Zlatareva(King's College London), Anna Lorenc(King's College London), Zhipei Gracie Du(Roche (United States)), Daniel Davies(Royal Free London NHS Foundation Trust), Fernanda Kyle‐Cezar(King's College London), Abhishek Das(King's College London), Sarah Gee(King's College London), Jeffrey Seow(King's College London), Carl Graham(King's College London), Dilduz Telman(Roche (United States)), Clara Bermejo(Roche (United States)), Hai Lin(Roche (United States)), Hosseinali Asgharian(Roche (United States)), Adam Laing(King's College London), Irene del Molino del Barrio(King's College London), Leticia Monin(The Francis Crick Institute), Miguel Muñoz‐Ruiz(The Francis Crick Institute), Duncan R. McKenzie(The Francis Crick Institute), Thomas S. Hayday(King's College London), Isaac Francos-Quijorna(King's College London), Shraddha Kamdar(King's College London), Richard Davis(King's College London), Vasiliki Sofra(King's College London), Florencia Cano(The Francis Crick Institute), Efstathios Theodoridis(King's College London), Lauren Martinez(Guy's and St Thomas' NHS Foundation Trust), Blair Merrick(Guy's and St Thomas' NHS Foundation Trust), Karen Bisnauthsing(Guy's and St Thomas' NHS Foundation Trust), Kate Brooks(Guy's and St Thomas' NHS Foundation Trust), Jonathan D. Edgeworth(King's College London), John Cason(King's College London), Christine Mant(King's College London), Katie J. Doores(King's College London), Pierre Vantourout(King's College London), Khai Luong(Roche (United States)), Jan Berka(Roche (United States)), Adrian Hayday(King's College London)

Proceedings of the National Academy of Sciences

August 9, 2022

10.1073/pnas.2201541119

Cited by 22Open Access

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Abstract

Whereas pathogen-specific T and B cells are a primary focus of interest during infectious disease, we have used COVID-19 to ask whether their emergence comes at a cost of broader B cell and T cell repertoire disruption. We applied a genomic DNA-based approach to concurrently study the immunoglobulin-heavy (IGH) and T cell receptor (TCR) β and δ chain loci of 95 individuals. Our approach detected anticipated repertoire focusing for the IGH repertoire, including expansions of clusters of related sequences temporally aligned with SARS-CoV-2-specific seroconversion, and enrichment of some shared SARS-CoV-2-associated sequences. No significant age-related or disease severity-related deficiencies were noted for the IGH repertoire. By contrast, whereas focusing occurred at the TCRβ and TCRδ loci, including some TCRβ sequence-sharing, disruptive repertoire narrowing was almost entirely limited to many patients aged older than 50 y. By temporarily reducing T cell diversity and by risking expansions of nonbeneficial T cells, these traits may constitute an age-related risk factor for COVID-19, including a vulnerability to new variants for which T cells may provide key protection.

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