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Aim To observe the effect of thalidomide on the learning and memory ability and hippocampal tissue proteome of Alzheimer's disease(AD)mice,to screen the differential proteins of thalidomide in preventing and treating AD,the pathways involved in regulation,and to explore its possible mechanism. Methods The experimental mice were randomly divided into blank control group,model group,and thalidomide high and low dose groups. The drugs were administered by gavage every day for 21 days. After the administration,Morris water maze test was used to evaluate the learning and memory abilities of the mice,HE staining and Nissl staining were used to observe the pathological tissue morphology of the mouse hippocampus,ELISA was employed to detect the mitochondrial respiratory chain enzyme complex in mouse brain,and the Label-free proteomics method was used to screen different groups of hippocampal proteome proteins. Results The results of the Morris water maze showed that compared with the model group,the escape latency time of the drug group was significantly reduced,and the number of crossing the platform significantly increased(P<0.05). Thalidomide administration could improve the morphological structure of neurons in hippocampus,and could increase the activity of the mitochondrial respiratory chain complex ,Ⅱ, and of the brain tissues of AD mice(P<0.05). A total of 4 378 differential proteins were identified,which had a significant regulatory effect on the expression of 580 proteins in hippocampus of AD mice(P<0.05). Energy metabolism may jointly participate in the regulation of neurodegeneration pathways-changes in pathways such as various diseases and Alzheimer's disease. Conclusions Thalidomide can significantly improve the learning and memory function of AD model mice induced by Aβ
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This study was aimed to detect the expression of miR-665 in the hippocampal of depression rat model treated with Kai-Xin Jie-Yu (KXJY) decoction and bioinformatic analysis of target genes of miR-665,in order to investigate the role of miR-665 in the pathogenesis of depression and the antidepressant mechanism of KXJY decoction.The rat model of chronic stress depression was established and then treated with KXJY decoction for 42 days.The total RNA from hippocampus tissues was extracted.And the relative expression of miR-665 in hippocampus of rats in each group was detected by RT-qPCR.TargetScan and microRNAorg databases were used to predict target genes for miR-665.DAVID database was used to classify GO function and to analyze KEGG signaling pathway of target genes.The results showed that compared with the normal group,the expression level of miR-665 in hippocampus of the model group was significantly higher with significant difference (P < 0.01).Compared with the model group,the expression level of miR-665 in hippocampus of Chinese medicine group and western medicine group decreased significantly with significant difference (P < 0.01).The biological functions of miR-665 target genes were mainly concentrated in the response to organic substance.The signal pathway was mainly concentrated in N-Glycan biosynthesis.It was concluded that miR-665 may be involved in the pathological process of depression,by correcting the abnormal expression of miR-665,which may be one of the antidepressant mechanisms of KXJY decoction.Through the analysis and prediction of the target genes,it provided a certain direction and theoretical basis for further study on the specific mechanism of KXJY decoction intervention on miR-665.