ABSTRACT
Objective To find out the expression relation between TP53 and NOTCH1,and to explore their effects in head and neck squamous cell carcinoma.Methods Obtained the differentially expressed genes data of head and neck squamous cell carcinoma from 279 samples in TCGA database.Analyzed the co-expression relation between TP53 and NOTCH1 through Pearson and Spearman method.Cbioportal was used to analyze their co-expressed genes.Establish the co-expression network of TP53 and NOTCH1 with String database.The pathway and function of co-expression network was identified through KEGG and DAVID database respectively.Results Among the 279 samples,TP53 and NOTCH1 was co-expressed in head and neck squamous cell carcinoma.(Pearson score =0.45;Spearman score =0.41) There were 182 interaction pairs of TP53 and NOTCH1 related co-expressed gene according to the String database.(Pearson and Spearman score > 0.3)These genes were enriched in some pathways such as T cell receptor signaling pathway,cell cycle,cell adhesion molecules and so on.These genes were enriched in some tumor related function including immune response,regulation of transposition,regulation of apoptotic process,cell cycle,regulation of GTPase activity and so on.Conclusion TP53 and NOTCH1 was co-expressed.Through establishing co-expressed network of TP53 and NOTCH1 and bioinformatics analysis,their function and signaling pathway were explored.The data generated from this study could provide a new reference in mechanism research of head and neck squamous cell carcinoma.
ABSTRACT
Objective To explore the FOXP3-related mechanism underlying head and neck squamous cell carcinoma.Methods We used cbioportal to identify the co-expressed genes of FOXP3 in 279 samples from head and neck squamous cell carcinoma in TCGA database.We used String database to establish the co-expression network of FOXP3.The function of co-expression network was identified through DAVID database.We used miRTarBase and StarBase database to screen the microRNA,lncRNA and circRNA that regulate FOXP3.Finally,Cytoscape software was used to establish FOXP3-related ceRNA network.Results We found 950 FOXP3 related co-expressed gene.(Spearman score over 0.5) These genes were enriched in immune response including T cell,leukocyte and lymphocyte activation.CeRNA network revealed that 2 microRNAs (i.e.,miR-31-5p and miR-210-3p),42 lncRNAs (e.g.,XIST,TUG1,JRK and LINC00473) and 31 circRNAs (e.g.,ZNF223 _hsa_ circ_ 000898 and ISY1 _hsa _circ _001090) could regulate FOXP3.Conclusion We established FOXP3-related ceRNA network and identified 42 lncRNAs and 31 circRNAs that regulate FOXP3.The data generated from this study could provide a new cut point in research and treatment of head and neck squamous cell carcinoma.
ABSTRACT
Objective Screening the functional gene modules that can play important roles in hypopharyngeal cancer and the potential anti-cancer drugs.Methods GEO database and MeV software were employed to screen the differentially expressed genes in hypopharyngeal cancer.Using STRING database,the protein-protein interaction network was identified.MCODE plugin of Cytoscape was used to identify the functional gene modules in the network.Based on DAVID database,the functions of modules were identified.DrugBank was used to screen the potential drugs that regulate the target genes of modules.Results 1 222 differentially expressed genes including 219 interaction pairs were i-dentified in whole genome profiling(P <0.05 ).Seven functional modules were identified in the network.The results of function analysis showed the module genes were enriched in cancer development related-function ‘regulation of angiogenesis’,‘cell adhesion’,‘DNA meta-bolic process’.A total of 50 potential drugs that regulating the 5 modules were screened.Conclusion Five functional modules that regulate the progress of hypopharyngeal cancer were identified,and maybe they can promote hypopharyngeal cancer through some functions such as regulation of angiogenesis 18 up-regulated protein kinases were identified.Their kinase inhibitors may potential have a role in anti-cancer, which provides a new target point for molecular therapy of nasopharyngeal cancer.