Rapid Turnover of Cortical NCAM1 Regulates Synaptic Reorganization after Peripheral Nerve Injury

Hyoung Gon Ko, Jun Hyeok Choi, Dong Ik Park, Suk Jae Joshua Kang, Chae Seok Lim, Su Eon Sim, Jaehoon Shim, Ji Il Kim, Siyong Kim, Tae Hyeok Choi, Sanghyun Ye, Jaehyun Lee, Pojeong Park, Somi Kim, Jeehaeh Do, Jihye Park, Md Ariful Islam, Hyun Jeong Kim, Christoph W. Turck, Graham L. CollingridgeMin Zhuo, Bong Kiun Kaang

Research output: Contribution to journalArticlepeer-review

33 Scopus citations

Abstract

Peripheral nerve injury can induce pathological conditions that lead to persistent sensitized nociception. Although there is evidence that plastic changes in the cortex contribute to this process, the underlying molecular mechanisms are unclear. Here, we find that activation of the anterior cingulate cortex (ACC) induced by peripheral nerve injury increases the turnover of specific synaptic proteins in a persistent manner. We demonstrate that neural cell adhesion molecule 1 (NCAM1) is one of the molecules involved and show that it mediates spine reorganization and contributes to the behavioral sensitization. We show striking parallels in the underlying mechanism with the maintenance of NMDA-receptor- and protein-synthesis-dependent long-term potentiation (LTP) in the ACC. Our results, therefore, demonstrate a synaptic mechanism for cortical reorganization and suggest potential avenues for neuropathic pain treatment. Cortical neuronal circuits reorganize in response to peripheral nerve injury. Ko et al. find that the anterior cingulate cortex (ACC) increases the turnover of specific synaptic proteins after nerve injury. The turnover of neural cell adhesion molecule 1 (NCAM1) mediates spine reorganization and contributes to behavioral sensitization after nerve injury.

Original languageEnglish
Pages (from-to)748-759
Number of pages12
JournalCell Reports
Volume22
Issue number3
DOIs
StatePublished - 16 Jan 2018

Keywords

  • NCAM1
  • neural cell adhesion molecule 1
  • neuropathic pain
  • protein turnover
  • synaptic reorganization

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