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Systems analysis reveals high genetic and antigen-driven predetermination of antibody repertoires throughout B Cell development

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Greiff, V., Menzel, U., Miho, E., Weber, C., Riedel, re, R., Cook, S., et al. (2017). Systems analysis reveals high genetic and antigen-driven predetermination of antibody repertoires throughout B Cell development. Cell Reports, 19(7), 1467-1478. doi:10.1016/j.celrep.2017.04.054.


Cite as: https://hdl.handle.net/21.11116/0000-0001-7066-E
Abstract
Antibody repertoire diversity and plasticity is crucial for broad protective immunity. Repertoires change in size and diversity across multiple B cell developmental stages and in response to antigen exposure. However, we still lack fundamental quantitative understanding of the extent to which repertoire diversity is predetermined. Therefore, we implemented a systems immunology framework for quantifying repertoire predetermination on three distinct levels: (1) B cell development (pre-B cell, naive B cell, plasma cell), (2) antigen exposure (three structurally different proteins), and (3) four antibody repertoire components (V-gene usage, clonal expansion, clonal diversity, repertoire size) extracted from antibody repertoire sequencing data (400 million reads). Across all three levels, we detected a dynamic balance of high genetic (e.g., >90 for V-gene usage and clonal expansion in naive B cells) and antigen-driven (e.g., 40 for clonal diversity in plasma cells) predetermination and stochastic variation. Our study has implications for the prediction and manipulation of humoral immunity.