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Impaired immunoglobulin gene rearrangement in mice lacking the IL-7 receptor

Author

Listed:
  • Anne E. Corcoran

    (Medical Research Council Laboratory of Molecular Biology)

  • Andrew Riddell

    (Medical Research Council Laboratory of Molecular Biology)

  • Danielle Krooshoop

    (Medical Research Council Laboratory of Molecular Biology)

  • Ashok R. Venkitaraman

    (Medical Research Council Laboratory of Molecular Biology)

Abstract

To generate the full diversity of antibody heavy-chain genes, hundreds of dispersed germline V segments must undergo recombination following D–J segment joining. Here we report that this process is regulated by the α-chain of the receptor for interleukin-7, a cytokine that stimulates B-cell lymphopoiesis1. D–J joining occurs normally in immature B lymphocytes from mice lacking the α-chain of the interleukin-7 receptor (IL-7Rα). But recombination of V segments is progressively impaired as their distance increases upstream of D/J, causing infrequent rearrangement of most V segments, which markedly reduces diversity. This is not simply due to defective cell proliferation or impaired recombinase expression. Rather, germline transcripts from distal, unrearranged V segments, a marker of chromatin changes that precede recombination, are specifically silenced. So too is expression of Pax-5, which binds to heavy-chain locus control elements and normally stimulates recombination, suggesting a mechanism for these effects. Thus ligands of the interleukin-7 receptor deliver an extrinsic signal that targets V segment recombination in the heavy-chain locus by altering the accessibility of DNA substrates to the recombinase. This mechanism augments the recombinational diversity of the primary antibody repertoire.

Suggested Citation

  • Anne E. Corcoran & Andrew Riddell & Danielle Krooshoop & Ashok R. Venkitaraman, 1998. "Impaired immunoglobulin gene rearrangement in mice lacking the IL-7 receptor," Nature, Nature, vol. 391(6670), pages 904-907, February.
  • Handle: RePEc:nat:nature:v:391:y:1998:i:6670:d:10.1038_36122
    DOI: 10.1038/36122
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    Cited by:

    1. Robin D. Lee & Sarah A. Munro & Todd P. Knutson & Rebecca S. LaRue & Lynn M. Heltemes-Harris & Michael A. Farrar, 2021. "Single-cell analysis identifies dynamic gene expression networks that govern B cell development and transformation," Nature Communications, Nature, vol. 12(1), pages 1-16, December.

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