Your search keyword '"Edith Willscher"' showing total 2 results

1. Maturation trajectories and transcriptional landscape of plasmablasts and autoreactive B cells in COVID-19

Author

Christoph Schultheiß, Lisa Paschold, Edith Willscher, Donjete Simnica, Anna Wöstemeier, Franziska Muscate, Maxi Wass, Stephan Eisenmann, Jochen Dutzmann, Gernot Keyßer, Nicola Gagliani, and Mascha Binder

Subjects

Immunology, Virology, Transcriptomics, Science

Abstract

Summary: In parasite and viral infections, aberrant B cell responses can suppress germinal center reactions thereby blunting long-lived memory and may provoke immunopathology including autoimmunity. Using COVID-19 as model, we set out to identify serological, cellular, and transcriptomic imprints of pathological responses linked to autoreactive B cells at single-cell resolution. We show that excessive plasmablast expansions are prognostically adverse and correlate with autoantibody production but do not hinder the formation of neutralizing antibodies. Although plasmablasts followed interleukin-4 (IL-4) and BAFF-driven developmental trajectories, were polyclonal, and not enriched in autoreactive B cells, we identified two memory populations (CD80+/ISG15+ and CD11c+/SOX5+/T-bet+/−) with immunogenetic and transcriptional signs of autoreactivity that may be the cellular source of autoantibodies in COVID-19 and that may persist beyond recovery. Immunomodulatory interventions discouraging such adverse responses may be useful in selected patients to shift the balance from autoreactivity toward long-term memory.

Published

2021

2. Maturation trajectories and transcriptional landscape of plasmablasts and autoreactive B cells in COVID-19

Author

Donjete Simnica, Anna Wöstemeier, Christoph Schultheiß, Gernot Keyßer, Maxi Wass, Lisa Paschold, Mascha Binder, Stephan Eisenmann, Nicola Gagliani, Franziska Muscate, Jochen Dutzmann, and Edith Willscher

Subjects

Multidisciplinary, Science, Immunology, Autoantibody, Germinal center, CD11c, Biology, medicine.disease_cause, Article, Autoimmunity, medicine.anatomical_structure, Immunopathology, Virology, medicine, biology.protein, Antibody, B-cell activating factor, Transcriptomics, B cell, CD80

Abstract

In parasite and viral infections, aberrant B cell responses can suppress germinal center reactions thereby blunting long-lived memory and may provoke immunopathology including autoimmunity. Using COVID-19 as model, we set out to identify serological, cellular and transcriptomic imprints of pathological responses linked to autoreactive B cells at single-cell resolution. We show that excessive plasmablast expansions are prognostically adverse, correlate with auto-antibody production, but do not hinder the formation of neutralizing antibodies. While plasmablasts followed IL-4 and BAFF driven developmental trajectories, were polyclonal and not enriched in autoreactive B cells, we identified two memory populations (CD80+/ISG15+ and CD11c+/SOX5+/T-bet+/-) with immunogenetic and transcriptional signs of autoreactivity that may be the cellular source of auto-antibodies in COVID-19 and that may persist beyond recovery. Immunomodulatory interventions discouraging such adverse responses may be useful in selected patients to shift the balance from autoreactivity towards long-term memory., Graphical Abstract

Published

2021