Naive and memory human B cells have distinct requirements for STAT3 activation to differentiate into antibody-secreting plasma cells

Elissa K. Deenick, Danielle T. Avery, Anna Chan, Lucinda J. Berglund, Megan L. Ives, Leen Moens, Jennifer L. Stoddard, Jacinta Bustamante, Stephanie Boisson-Dupuis, Miyuki Tsumura, Masao Kobayashi, Peter D. Arkwright, Diana Averbuch, Dan Engelhard, Joachim Roesler, Jane Peake, Melanie Wong, Stephen Adelstein, Sharon Choo, Joanne M. SmartMartyn A. French, David A. Fulcher, Matthew C. Cook, Capucine Picard, Anne Durandy, Christoph Klein, Steven M. Holland, Gulbu Uzel, Jean Laurent Casanova, Cindy S. Ma, Stuart G. Tangye*

*Corresponding author for this work

    Research output: Contribution to journalArticlepeer-review

    152 Citations (Scopus)

    Abstract

    Long-lived antibody memory is mediated by the combined effects of long-lived plasma cells (PCs) and memory B cells generated in response to T cell-dependent antigens (Ags). IL-10 and IL-21 can activate multiple signaling pathways, including STAT1, STAT3, and STAT5; ERK; PI3K/Akt, and potently promote human B cell differentiation. We previously showed that loss-of-function mutations in STAT3, but not STAT1, abrogate IL-10-and IL-21-mediated differentiation of human naive B cells into plasmablasts. We report here that, in contrast to naive B cells, STAT3-deficient memory B cells responded to these STAT3-activating cytokines, differentiating into plasmablasts and secreting high levels of IgM, IgG, and IgA, as well as Ag-specific IgG. This was associated with the induction of the molecular machinery necessary for PC formation. Mutations in IL21R, however, abolished IL-21-induced responses of both naive and memory human B cells and compromised memory B cell formation in vivo. These findings reveal a key role for IL-21R/STAT3 signaling in regulating human B cell function. Furthermore, our results indicate that the threshold of STAT3 activation required for differentiation is lower in memory compared with naive B cells, thereby identifying an intrinsic difference in the mechanism underlying differentiation of naive versus memory B cells.

    Original languageEnglish
    Pages (from-to)2739-2753
    Number of pages15
    JournalJournal of Experimental Medicine
    Volume210
    Issue number12
    DOIs
    Publication statusPublished - Nov 2013

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