Abstract

Abnormal serotonin-glutamate interaction in prefrontal cortex (PFC) is implicated in the pathophysiology of many mental disorders, including schizophrenia and depression. However, the mechanisms by which this interaction occurs remain unclear. Our previous study has shown that activation of 5-HT1A receptors inhibits N-methyl-d-aspartate (NMDA) receptor (NMDAR) currents in PFC pyramidal neurons by disrupting microtubule-based transport of NMDARs. Here we found that activation of 5-HT2A/C receptors significantly attenuated the effect of 5-HT1A on NMDAR currents and microtubule depolymerization. The counteractive effect of 5-HT2A/C on 5-HT1A regulation of synaptic NMDAR response was also observed in PFC pyramidal neurons from intact animals treated with various 5-HT-related drugs. Moreover, 5-HT2A/C stimulation triggered the activation of extracellular signal-regulated kinase (ERK) in dendritic processes. Inhibition of the β-arrestin/Src/dynamin signaling blocked 5-HT2A/C activation of ERK and the counteractive effect of 5-HT2A/C on 5-HT1A regulation of NMDAR currents. Immunocytochemical studies showed that 5-HT2A/C treatment blocked the inhibitory effect of 5-HT1A on surface NR2B clusters on dendrites, which was prevented by cellular knockdown of β-arrestins. Taken together, our study suggests that serotonin, via 5-HT1A and 5-HT2A/C receptor activation, regulates NMDAR functions in PFC neurons in a counteractive manner. 5-HT2A/C, by activating ERK via the β-arrestin-dependent pathway, opposes the 5-HT1A disruption of microtubule stability and NMDAR transport. These findings provide a framework for understanding the complex interactions between serotonin and NMDARs in PFC, which could be important for cognitive and emotional control in which both systems are highly involved.

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