Communications Biology (Jan 2024)

CCDC88B interacts with RASAL3 and ARHGEF2 and regulates dendritic cell function in neuroinflammation and colitis

  • Jean-Frederic Olivier,
  • David Langlais,
  • Thiviya Jeyakumar,
  • Maria J. Polyak,
  • Luc Galarneau,
  • Romain Cayrol,
  • Hua Jiang,
  • Kelly R. Molloy,
  • Guoyue Xu,
  • Harumi Suzuki,
  • John LaCava,
  • Philippe Gros,
  • Nassima Fodil

DOI
https://doi.org/10.1038/s42003-023-05751-9
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 19

Abstract

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Abstract CCDC88B is a risk factor for several chronic inflammatory diseases in humans and its inactivation causes a migratory defect in DCs in mice. CCDC88B belongs to a family of cytoskeleton-associated scaffold proteins that feature protein:protein interaction domains. Here, we identified the Rho/Rac Guanine Nucleotide Exchange Factor 2 (ARHGEF2) and the RAS Protein Activator Like 3 (RASAL3) as CCDC88B physical and functional interactors. Mice defective in Arhgef2 or Rasal3 show dampened neuroinflammation, and display altered cellular response and susceptibility to colitis; ARHGEF2 maps to a human Chromosome 1 locus associated with susceptibility to IBD. Arhgef2 and Rasal3 mutant DCs show altered migration and motility in vitro, causing either reduced (Arhgef2) or enhanced (Rasal3) migratory properties. The CCDC88B/RASAL3/ARHGEF2 complex appears to regulate DCs migration by modulating activation of RHOA, with ARHGEF2 and RASAL3 acting in opposite regulatory fashions, providing a molecular mechanism for the involvement of these proteins in DCs immune functions.