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Human primary antibody response to vaccination follows a partially sequential class-switching program with a checkpoint at IGHG2
Journal article   Peer reviewed

Human primary antibody response to vaccination follows a partially sequential class-switching program with a checkpoint at IGHG2

Guillem Montamat-Garcia, Joseph C F Ng, Alexander T Stewart, Emma Sinclair, Benedicta B Mensah, Yan Hui Giam, Paul Blair, Diana Kateregga, Amir Gander, David Kipling, …
Cell reports. Medicine, p.102848
04/06/2026
PMID: 42242228

Abstract

human antibody class switching CSR antibody response class switch recombination vaccination response B cell subtypes
Class-switch recombination (CSR) allows B cells to produce antibodies with distinct effector functions, but its dynamics during a primary human response remain poorly understood. We sampled COVID-19-naive healthy volunteers every other day during the first 3 weeks after SARS-CoV-2 vaccination, combining bulk and single-cell B cell receptor repertoires, single-cell transcriptomics, immunophenotyping, and IGHC sterile transcript analysis. Vaccine-specific B cells show sterile transcription across all IGHC genes up to IGHG2, contradicting the prevailing idea of single-gene sterile transcription. Clonal tracking confirms that sequential CSR exists: e.g., IGHG3 to IGHG1 and IGHG1 to IGHA1 and IGHG2, with sparse switching beyond IGHG2. VDJ gene usage associates with specific isotype subclasses and differential CSR timing. CSR and somatic hypermutation are temporally decoupled, with antigen-specific clones remaining hypomutated up to 10 weeks post-immunization. These findings complement textbook models of CSR and inform strategies for vaccines requiring switching to key isotypes such as IgG1 or IgA2.
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https://doi.org/10.1016/j.xcrm.2026.102848View
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