摘要
Objective:The differential genes of left ventricle in middle cerebral artery occlusion model(MCAO)mice and Sham mice(Sham)mice at 24h and 72h after ischemia were compared respectively,and the differential genes and their regulated functional pathways were analyzed at different time points after ischemic stroke,so as to analyze the mechanism of inducing cardiac dysfunction after ischemic stroke and provide evidence for its treatment.Methods:Gene-chip data from the left ventricle of MCAO mice and Sham mice were downloaded from the GEO database at the National Center for Biotechnology Information(NCBI).The differentially expressed genes were obtained by R language software programming.The GO functional enrichment and KEGG pathway enrichment analysis of the obtained differential genes were performed using DAVID 6.8 online analysis tool,and the Omicshare online analysis tool was used to visualize the enrichment analysis results.Results:At 24h after ischemia,187 differentially expressed genes were obtained,including 56 GO enrichment pathways and 5 KEGG enrichment pathways with significant significance.After 72h after ischemia,51 differentially expressed genes were obtained,14 GO enrichment pathways and 3 KEGG enrichment pathways with significant significance.The two time points involved Aplnr and Itgb6 gene targets and PI3K-Akt signaling pathway.Conclusion:①By analyzing the gene expression profile data,the differentially expressed genes and related pathways of cardiac dysfunction induced by ischemic stroke were obtained.②PI3K-AKT signaling pathway is closely related to the regulation of cardiac function,and regulation of PI3K-AKT signaling pathway may be an important direction for the treatment of cardiac dysfunction after ischemic stroke.
基金
University-level Scientific Research Project of Ningxia Medical University:Startup Project of Ningxia Medical University for Special Talents(No.XT2017034)。