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SynGAP regulates synaptic plasticity and cognition independently of its catalytic activity.

Yoichi ArakiKacey E RajkovichElizabeth E GerberTimothy R GamacheRichard C JohnsonThanh Hai N TranBian LiuQianwen ZhuIngie HongAlfredo KirkwoodRichard L Huganir
Published in: Science (New York, N.Y.) (2024)
SynGAP is an abundant synaptic GTPase-activating protein (GAP) critical for synaptic plasticity, learning, memory, and cognition. Mutations in SYNGAP1 in humans result in intellectual disability, autistic-like behaviors, and epilepsy. Heterozygous Syngap1 -knockout mice display deficits in synaptic plasticity, learning, and memory and exhibit seizures. It is unclear whether SynGAP imparts structural properties at synapses independently of its GAP activity. Here, we report that inactivating mutations within the GAP domain do not inhibit synaptic plasticity or cause behavioral deficits. Instead, SynGAP modulates synaptic strength by physically competing with the AMPA-receptor-TARP excitatory receptor complex in the formation of molecular condensates with synaptic scaffolding proteins. These results have major implications for developing therapeutic treatments for SYNGAP1 -related neurodevelopmental disorders.
Keyphrases
  • intellectual disability
  • traumatic brain injury
  • autism spectrum disorder
  • mild cognitive impairment
  • prefrontal cortex
  • white matter
  • signaling pathway
  • binding protein
  • multiple sclerosis
  • amino acid
  • single molecule