Methyl gallate Attenuates Post-Stroke Emotional and Cognitive Symptoms by Promoting Hippocampal Neurogenesis via PI3K/GSK3 and AMPK Signaling

Restoring hippocampal neurogenesis is an effective strategy for post-stroke recovery. Methyl gallate (MET) exhibits neuroprotective properties. However, the effect of MET in improving brain functional recovery in the post-stroke depression (PSD) model and its underlying mechanism remains unknown. Single-cell data analysis showed that the cell types and molecular characteristics of PSD are similar to those of primary depression but exhibit weaker synaptic plasticity and stronger inflammatory signals. In addition, molecular docking studies revealed that MET exhibits a significant binding capacity with AMPK/GSK3, suggesting that MET mediates the neuroprotective effects of both. In this study, we created a post-stroke depression (PSD) model by performing physical restraint after ischemia and tested the treatment effects of MET. We observed that MET significantly attenuated PSD-induced depressive-/anxiety-behaviors associated with a reduction of stress hormone corticosterone and ACTH levels. Morris water maze and recognition task results indicate that MET can also alleviate cognitive impairments in the PSD model. In the hippocampus of the PSD model, MET improved the proliferation and differentiation of neural stem/progenitor cells (NSPCs). MET treatment significantly enhanced the activity of AMPK and decreased the activity of GSK3β. Furthermore, in primary neural progenitors under hypoxia, both the PI3K inhibitor LY294002 and the AMPK inhibitor compound C blocked the effects of MET to promote neural development. Animal experiments also confirmed that LY294002/compound C treatment could reduce the effects of MET in antidepressant behaviours. Taken together, our results indicate that PI3K, as well as AMPK-mediated adult neurogenesis, is restored by MET to improve brain functions in the PSD model.