Acute AMPK activation exacerbates ischemic brain damage experimentally.Paradoxically,the clinical use of an AMPK activator metformin reduces the incidence of stroke.We investigated whether post-stroke chronic metformin treatment promotes functional recovery and tissue repair via an M2-polarization mechanism following experimental stroke.Mice were randomly divided to receive metformin or vehicle daily beginning at 24 h after middle cerebral artery occlusion(MCAO).Neurological deficits were monitored for 30 days following MCAO.To characterize the polarization of the microglia and infiltrating macrophages,the expression of the M1 and M2 signature genes was analyzed with qPCR,ELISA and immunohistochemistry.Post-MCAO angiogenesis and neurogenesis were examined immunohistochemically.An in vitro angiogenesis model was employed to examine whether metformin promoted angiogenesis in a M2 polarization-dependent manner.Post-stroke chronic metformin treatment had no impact on acute infarction but enhanced cerebral AMPK activation,promoted functional recovery and skewed the microglia/macrophages toward an M2 phenotype following MCAO.Metformin also significantly increased angiogenesis and neurogenesis in the ischemic brain.Consistently,metformin-induced M2 polarization of BV2 microglial cells depended on AMPK activation in vitro.Furthermore,treatment of brain endothelial cells with conditioned media collected from metformin-polarized BV2 cells promoted angiogenesis in vitro.In conclusion,post-stroke chronic metformin treatment improved functional recovery following MCAO via AMPK-dependent M2 polarization.Modulation of microglia/macrophage polarization represents a novel therapeutic strategy for stroke.