Cell Reports (May 2018)

Neurobeachin and the Kinesin KIF21B Are Critical for Endocytic Recycling of NMDA Receptors and Regulate Social Behavior

  • Kira V. Gromova,
  • Mary Muhia,
  • Nicola Rothammer,
  • Christine E. Gee,
  • Edda Thies,
  • Irina Schaefer,
  • Sabrina Kress,
  • Manfred W. Kilimann,
  • Olga Shevchuk,
  • Thomas G. Oertner,
  • Matthias Kneussel

DOI
https://doi.org/10.1016/j.celrep.2018.04.112
Journal volume & issue
Vol. 23, no. 9
pp. 2705 – 2717

Abstract

Read online

Autism spectrum disorders (ASDs) are associated with mutations affecting synaptic components, including GluN2B-NMDA receptors (NMDARs) and neurobeachin (NBEA). NBEA participates in biosynthetic pathways to regulate synapse receptor targeting, synaptic function, cognition, and social behavior. However, the role of NBEA-mediated transport in specific trafficking routes is unclear. Here, we highlight an additional function for NBEA in the local delivery and surface re-insertion of synaptic receptors in mouse neurons. NBEA dynamically interacts with Rab4-positive recycling endosomes, transiently enters spines in an activity-dependent manner, and regulates GluN2B-NMDAR recycling. Furthermore, we show that the microtubule growth inhibitor kinesin KIF21B constrains NBEA dynamics and is present in the NBEA-recycling endosome-NMDAR complex. Notably, Kif21b knockout decreases NMDAR surface expression and alters social behavior in mice, consistent with reported social deficits in Nbea mutants. The influence of NBEA-KIF21B interactions on GluN2B-NMDAR local recycling may be relevant to mechanisms underlying ASD etiology.

Keywords