摘要
Background:Oral administration of indigo naturalis(IN)is used as a complementary and alternative medicine(CAM)regimen for the treatment of myelodysplastic syndromes(MDS).However,its mechanism of action has not been fully elucidated and needs to be further explored.Methods:By searching the traditional Chinese medicine system and analyzing platforms(TCMSP),bioinformatics analysis tool for the molecular mechanism of traditional Chinese medicine(BATMAN-TCM),and Swiss Target Prediction network database,the main active components and potential targets of IN were obtained.Based on this,a component-target network was established by Cytoscape 3.6.1 software.Differentially expressed genes(DGEs)in MDS were obtained from three GEO(Gene Expression Omnibus)gene chips.Then,the protein-protein interaction(PPI)network of DGEs was constructed and analyzed by STRING database and Cytoscape 3.6.1 software.In addition,Gene Ontology(GO)and Kyoto Encyclopedia of Genes and Genomes(KEGG)biological enrichment analysis were carried out using REVIGO and KEGG Orthology Based Annotation System(KOBAS)on DGEs,respectively.Identification of IN-MDS compound targets was performed by matching potential targets of active components with disease-related targets.The results of KEGG pathway enrichment analysis were combined with compound targets to screen key targets.In the end,molecular docking was performed by SYBYL-X2.1 to verify the key targets.Results:Nine active components of IN and 439 potential targets of IN were identified by analyzing TCMSP,BATMAN-TCM,and Swiss Target Prediction network databases.Three MDS disease-related gene microarray chips were obtained from the GEO databases:GSE4619,GSE19429,and GSE58831.Through this analysis,87 DEGs were finally obtained using the Venn diagram.A PPI network of DEGs was then constructed,in which 18 genes were upregulated and 69 genes were downregulated.After the GO enrichment results were de-redundant,the representative GO terms were obtained by using REVIGO semantic similarity measuremen.The KEGG biological pathway analysis using the KOBAS indicated that the Hippo signaling pathway is important in MDS.The Hippo signaling pathway involves four genes:AREG,LEF1,SMAD7,and TCF4.By matching and mapping DEGs with potential targets,six IN-MDS compound targets were obtained:PDE4B,PLAUR,ELANE,NR3C1,AREG,and LEF1.We found that AREG and LEF1 are consistent with the genes involved in the Hippo signaling pathway.Through molecular docking simulation,we found that the indican binds best to AREG and LEF1.Conclusion:Based on the integrated pharmacology model,the material basis of the efficacy and biological molecular mechanism of IN in the treatment of MDS was systematically studied,which provided a novel indication of the CAM regimen for the improvement of MDS management.