Neuroligin 2 is a synaptic cell adhesion molecule that is mainly located in inhibitory synapses and is crucial in the regulation of synapse function through protein-protein interactions. However, researchers have not clearly determined whether neuroligin 2 is involved in the development of postoperative pain. In the current study, Western blot, immunofluorescence staining and co-immunoprecipitation were used to examine the critical role of neuroligin 2 in postoperative pain hypersensitivity. A small interfering ribonucleic acid (siRNA)-targeting neuroligin 2 was used to inhibit neuroligin 2 expression. Our data found that plantar incision induced postoperative pain hypersensitivity, which was characterized by paw withdrawal threshold and cumulative pain score. The upregulation of neuroligin 2 and GluR1 expression in the postsynaptic membranes of ipsilateral spinal dorsal horn was observed at 3 h and 1 day after plantar incision. Additionally, at 3 h after plantar incision, the amount of PSD-95 that was co-immunoprecipitated with neuroligin 2 antibody was significantly increased in the ipsilateral dorsal horn, as compared to that of the control group. Intrathecal pretreatment of siRNA-targeting neuroligin 2 to reduce the neuroligin 2 expression in the spinal cord significantly inhibited the pain hypersensitivity and reduced the synaptic targeting of GluR1 in ipsilateral dorsal horns. Our study indicates that the incision-induced interaction between neuroligin 2 and PSD-95 and subsequent synaptic targeting of GluR1 in ipsilateral dorsal horns contribute to postoperative pain hypersensitivity.
Keywords: AMPA receptor; GluR1; PSD-95; neuroligin 2; postoperative pain; spinal cord.
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