Identifying the function of the NMDA NR1C2subunit through its interaction with Magi-2 during inflammatory pain

Abstract

SummaryMuch is understood about the structure and gating properties of NMDA receptors (NMDAR), but the function of the carboxy-terminal splice variant of the NR1 subunit, NR1C2has never been identified. By studying the scaffolding protein Magi-2 in animal models of inflammatory pain, we discovered how NR1C2protein is specifically regulated. We found that Magi-2 deficiency resulted in decreased pain behavior and a concomitant reduction in NR1C2protein. Magi-2 contains WW domains, domains typically found in ubiquitin ligases. We identified an atypical WW-binding domain within NR1C2which conferred susceptibility to Nedd4-1 ubiquitin-ligase dependent degradation. We used lipidated peptidomimetics derived from the NR1C2sequence and found that NR1C2protein levels and pain behavior can be pharmacologically targeted. The function of NR1C2is to give lability to a pool of NMDAR, important for pain signaling.