Molecular Brain (Oct 2011)

DIP/WISH deficiency enhances synaptic function and performance in the Barnes maze

  • Asrar Suhail,
  • Kaneko Keiko,
  • Takao Keizo,
  • Negandhi Jaina,
  • Matsui Makoto,
  • Shibasaki Koji,
  • Miyakawa Tsuyoshi,
  • Harrison Robert V,
  • Jia Zhengping,
  • Salter Michael W,
  • Tominaga Makoto,
  • Fukumi-Tominaga Tomoko

DOI
https://doi.org/10.1186/1756-6606-4-39
Journal volume & issue
Vol. 4, no. 1
p. 39

Abstract

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Abstract Background DIP (diaphanous interacting protein)/WISH (WASP interacting SH3 protein) is a protein involved in cytoskeletal signaling which regulates actin cytoskeleton dynamics and/or microtubules mainly through the activity of Rho-related proteins. Although it is well established that: 1) spine-head volumes change dynamically and reflect the strength of the synapse accompanying long-term functional plasticity of glutamatergic synaptic transmission and 2) actin organization is critically involved in spine formation, the involvement of DIP/WISH in these processes is unknown. Results We found that DIP/WISH-deficient hippocampal CA1 neurons exhibit enhanced long-term potentiation via modulation of both pre- and post-synaptic events. Consistent with these electrophysiological findings, DIP/WISH-deficient mice, particularly at a relatively young age, found the escape hole more rapidly in the Barnes maze test. Conclusions We conclude that DIP/WISH deletion improves performance in the Barnes maze test in mice probably through increased hippocampal long-term potentiation.