Enhanced NK-cell development and function in BCAP-deficient mice

Alexander W. MacFarlane IV, Tetsuo Yamazaki, Min Fang, Luis J. Sigal, Tomohiro Kurosaki, Kerry S. Campbell

Research output: Contribution to journalArticlepeer-review

29 Scopus citations

Abstract

In B lymphocytes, the B-cell adaptor for phosphatidylinositol 3-kinase (BCAP) facilitates signaling from the antigen receptor. Mice lacking BCAP have a predominantly immature pool of B cells with impaired immune function and increased susceptibility to apoptosis. Unexpectedly, we have found that natural killer (NK) cells from BCAP-deficient mice are more mature, more long-lived, more resistant to apoptosis, and exhibit enhanced functional activity compared with NK cells from wild-type mice. Surprisingly, these effects are evident despite a severe impairment of the immunoreceptor tyrosinebased activation motif-mediated Akt signaling pathway. The seemingly paradoxical phenotype reveals inherent differences in the signals controlling the final maturation of B cells and NK cells, which depend on positive and negative signals, respectively. Both enhanced interferon-γ responses and augmented maturation of NK cells in BCAP-deficient mice are independent of available MHC class I ligands. Our data support a model in which blunting of BCAP-mediated activation signaling in developing NK cells promotes functionality, terminal maturation, and long-term survival.

Original languageEnglish
Pages (from-to)131-140
Number of pages10
JournalBlood
Volume112
Issue number1
DOIs
StatePublished - Jul 1 2008

Keywords

  • Adaptor Proteins, Signal Transducing/deficiency
  • Animals
  • Apoptosis
  • Cell Differentiation
  • Cellular Senescence
  • Cytotoxicity, Immunologic
  • Female
  • Humans
  • Interferon-gamma/biosynthesis
  • Killer Cells, Natural/cytology
  • Male
  • Mice
  • Mice, Congenic
  • Mice, Inbred C57BL
  • Mice, Knockout
  • Models, Immunological
  • Phosphatidylinositol 3-Kinases/metabolism
  • Proto-Oncogene Proteins c-akt/metabolism
  • Self Tolerance
  • Signal Transduction

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