Molecular mechanism of long-term neuroprotective effects of gradual flow restoration on cerebral ischemia reperfusion injury in MCAO rats

Abstract

Background and purposeIschemia-reperfusion injuries (IRIs) can aggravate the condition of some patients with acute occlusion of major intracranial artery (AOMIA) who received endovascular thrombectomy. Here, we provided data confirming the association of Repressor Element-1 Silencing Transcription factor (REST) with the long-term neuroprotective effect of the middle cerebral artery occlusion (MCAO) rats underwent Gradual Flow Restoration (GFR). MethodsLong term neuroprotective effects of GFR intervention were evaluated on MCAO rats model after 3d and 7d reperfusion. The neurological deficit score and TTC staining were performed to evaluate the degree of brain damage in GFR and other interventions at different time. Differentially expressed genes related to cerebral ischemia reperfusion injury (CIRI) were initially screened and identified using GSE32529 microarray analysis. REST protein expression in rat brain cortex infarction was detected by Western blot analysis. ResultsMCAO rats intervened with GFR exhibited reduced neurological deficit (P < 0.05) and alleviated brain infarction volume (P < 0.01). The REST gene with up-regulated expression and its downstream genes with down-regulated expression were screened by Microarray analysis. The brain cortex infarction in MCAO rats produced high levels of REST expression. The GFR intervention inhibited REST expression, and alleviated brain injury on MCAO rats. ConclusionOur results demonstrated that GFR intervention plays a long-term neuroprotective role and reduces brain edema and damage at reperfusion, possibly by inhibiting REST expression.