Abstract
Secretory immunoglobulin A (SIgA) shields the gut epithelium from luminal antigens and contributes to host-microbe symbiosis. However, how antibody responses are regulated to achieve sustained host-microbe interactions is unknown. We found that mice and humans exhibited longitudinal persistence of clonally related B cells in the IgA repertoire despite major changes in the microbiota during antibiotic treatment or infection. Memory B cells recirculated between inductive compartments and were clonally related to plasma cells in gut and mammary glands. Our findings suggest that continuous diversification of memory B cells constitutes a central process for establishing symbiotic host-microbe interactions and offer an explanation of how maternal antibodies are optimized throughout life to protect the newborn.
Publication types
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Research Support, Non-U.S. Gov't
MeSH terms
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Adaptation, Physiological / immunology*
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Animals
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Anti-Bacterial Agents / pharmacology
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Antibodies / genetics
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Antibodies / immunology*
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Antibodies / metabolism
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B-Lymphocytes / immunology*
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B-Lymphocytes / metabolism
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Female
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Gastrointestinal Tract / drug effects
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Gastrointestinal Tract / immunology*
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Gastrointestinal Tract / microbiology
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Host-Pathogen Interactions / drug effects
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Host-Pathogen Interactions / immunology
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Humans
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Immunoglobulin A / genetics
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Immunoglobulin A / immunology
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Immunoglobulin A / metabolism
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Immunoglobulin A, Secretory / immunology*
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Immunologic Memory / immunology
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Mammary Glands, Animal / immunology
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Mammary Glands, Animal / metabolism
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Mice, Inbred C57BL
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Mice, Transgenic
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Microbiota / genetics
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Microbiota / immunology*
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Microbiota / physiology
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Mutation
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Plasma Cells / immunology
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Plasma Cells / metabolism
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RNA, Ribosomal, 16S / genetics
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Symbiosis / drug effects
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Symbiosis / immunology
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Young Adult
Substances
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Anti-Bacterial Agents
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Antibodies
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Immunoglobulin A
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Immunoglobulin A, Secretory
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RNA, Ribosomal, 16S