Cell Reports (Jun 2018)

NGL-2 Deletion Leads to Autistic-like Behaviors Responsive to NMDAR Modulation

  • Seung Min Um,
  • Seungmin Ha,
  • Hyejin Lee,
  • Jihye Kim,
  • Kyungdeok Kim,
  • Wangyong Shin,
  • Yi Sul Cho,
  • Junyeop Daniel Roh,
  • Jaeseung Kang,
  • Taesun Yoo,
  • Young Woo Noh,
  • Yeonsoo Choi,
  • Yong Chul Bae,
  • Eunjoon Kim

Journal volume & issue
Vol. 23, no. 13
pp. 3839 – 3851

Abstract

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Summary: Netrin-G ligand 2 (NGL-2)/LRRC4, implicated in autism spectrum disorders and schizophrenia, is a leucine-rich repeat-containing postsynaptic adhesion molecule that interacts intracellularly with the excitatory postsynaptic scaffolding protein PSD-95 and trans-synaptically with the presynaptic adhesion molecule netrin-G2. Functionally, NGL-2 regulates excitatory synapse development and synaptic transmission. However, whether it regulates synaptic plasticity and disease-related specific behaviors is not known. Here, we report that mice lacking NGL-2 (Lrrc4−/− mice) show suppressed N-Methyl-D-aspartate receptor (NMDAR)-dependent synaptic plasticity in the hippocampus. NGL-2 associates with NMDARs through both PSD-95-dependent and -independent mechanisms. Moreover, Lrrc4−/− mice display mild social interaction deficits and repetitive behaviors that are rapidly improved by pharmacological NMDAR activation. These results suggest that NGL-2 promotes synaptic stabilization of NMDARs, regulates NMDAR-dependent synaptic plasticity, and prevents autistic-like behaviors from developing in mice, supporting the hypothesis that NMDAR dysfunction contributes to autism spectrum disorders. : NGL-2 is a postsynaptic adhesion molecule known to regulate synaptic transmission, but whether NGL-2 regulates synaptic plasticity and specific behaviors remains unknown. Um et al. find that mice lacking NGL-2 display suppressed NMDA receptor-dependent synaptic plasticity and autistic-like social deficits and repetitive behaviors that are responsive to NMDA receptor activation. Keywords: autism, NMDA receptors, repetitive behavior, synaptic adhesion, social interaction