JCI Insight (Sep 2020)

Wiskott-Aldrich syndrome protein restricts cGAS/STING activation by dsDNA immune complexes

  • Giulia Maria Piperno,
  • Asma Naseem,
  • Giulia Silvestrelli,
  • Roberto Amadio,
  • Nicoletta Caronni,
  • Karla Evelia Cervantes-Luevano,
  • Nalan Liv,
  • Judith Klumperman,
  • Andrea Colliva,
  • Hashim Ali,
  • Francesca Graziano,
  • Philippe Benaroch,
  • Hans Haecker,
  • Richard N. Hanna,
  • Federica Benvenuti

Journal volume & issue
Vol. 5, no. 17

Abstract

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Dysregulated sensing of self–nucleic acid is a leading cause of autoimmunity in multifactorial and monogenic diseases. Mutations in Wiskott-Aldrich syndrome protein (WASp), a key regulator of cytoskeletal dynamics in immune cells, cause autoimmune manifestations and increased production of type I IFNs by innate cells. Here we show that immune complexes of self-DNA and autoantibodies (DNA-ICs) contribute to elevated IFN levels via activation of the cGAS/STING pathway of cytosolic sensing. Mechanistically, lack of endosomal F-actin nucleation by WASp caused a delay in endolysosomal maturation and prolonged the transit time of ingested DNA-ICs. Stalling in maturation-defective organelles facilitated leakage of DNA-ICs into the cytosol, promoting activation of the TBK1/STING pathway. Genetic deletion of STING and STING and cGAS chemical inhibitors abolished IFN production and rescued systemic activation of IFN-stimulated genes in vivo. These data unveil the contribution of cytosolic self–nucleic acid sensing in WAS and underscore the importance of WASp-mediated endosomal actin remodeling in preventing innate activation.

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