RESUMEN
OBJECTIVE There are serious hazards in depression,and the precise mechanism underlying the delayed onset of clinical antidepressants remains unclear.The purpose of this study was to investigate the regular pattern of the speed-limiting role of excitation/inhibition(E/I)function balance in the mechanism of antidepressant action.METHODS Based on the previous study,we focused on glutamatergic pyramidal neurons in the medial prefrontal cortex(mPFC)here and used its excitability to represent the establishment of a new E/I functional balance.We studied the changes in the firing activity of glutamatergic pyramidal neuron in the mPFC at different administration times for five types of antidepressants that act on different pharmacological targets and different onset times,including fluoxetine(SSRI),duloxetine(SNRI),vilazodone[serotonin 1A receptor(5-HT1A)ago-nist and SSRI],ketamine[N-methyl-D-aspartate(NMDA)receptor antagonist],and hypidone hydrochloride(YL-0919,new antidepressant with sigma-1 receptor ago-nist and SSRI).We first examined the initial onset time of activation of pyramidal neurons using multichannel elec-trophysiological recordings and tested the antidepressant behavioral effects using the FST.We then selected three antidepressants(fluoxetine,ketamine,and vilazodone)to explore its effects on the BDNF-mTOR pathway by West-ern blotting.In addition,we disrupted the E/I function bal-ance using chemogenetics to investigate the antidepres-sant-like effects of YL-0919 and ketamine in the FST and TST.RESULTS We found that treatment with fluoxetine for 17 days significantly increased the firing activity of pyramidal neurons and decreased the immobility duration in the FST.Similarly,it took duloxetine for 10 d,vilazodone for 4 d,YL-0919 for 3 d and ketamine for 24 h,to exert such effects.Meanwhile,Western blotting results sug-gested that the expression of BDNF and phosphorylation of mTOR in the mPFC significantly increased.How-ever,haloperidol,a classic antipsychotic(without antide-pressant effects),exerted no such effects on the firing activities of pyramidal neurons.In addition,disrupting the E/I function balance(via activating the GABA neurons and inhibiting the glutamate neurons)blocks out the antidepressant-like effects of YL-0919 and ketamine in the FST and TST.CONCLUSION Taken together,our findings suggest that the commencement of antide-pressant effects may be accompanied by the increase in the firing activity of pyramidal neurons and the activation of the BDNF-mTOR pathway,which may be a necessary and rate-limiting process.The re-establishment of the E/I balance may be a landmark event for the onset of antide-pressant effects.