BACKGROUND Cholangiocarcinoma(CCA)is a devastating malignancy and has a very poor prognosis if tumors spread outside the liver.Understanding the molecular mechanisms underlying the CCA progression will likely yield th...BACKGROUND Cholangiocarcinoma(CCA)is a devastating malignancy and has a very poor prognosis if tumors spread outside the liver.Understanding the molecular mechanisms underlying the CCA progression will likely yield therapeutic approaches toward treating this deadly disease.AIM To determine the molecular pathogenesis in CCA progression.METHODS In silico analysis,in vitro cell culture,CCA transgenic animals,histological,and molecular assays were adopted to determine the molecular pathogenesis.RESULTS The transcriptomic data of human CCA samples were retrieved from The Cancer Genome Atlas(TGCA,CHOL),European Bioinformatics Institute(EBI,GAD-00001001076),and Gene Expression Omnibus(GEO,GSE107943)databases.Using Gene set enrichment analysis,the cell cycle and Notch related pathways were demonstrated to be significantly activated in CCA in TCGA and GEO datasets.We,through differentially expressed genes,found several cell cycle and notch associated genes were significantly up-regulated in cancer tissues when compared with the non-cancerous control samples.The associated genes,via quantitative real-time PCR and western blotting assays,were further examined in normal human cholangiocytes,CCA cell lines,mouse normal bile ducts,and mouse CCA tumors established by specifically depleting P53 and expressing KrasG12D mutation in the liver.Consistently,we validated that the cell cycle and Notch pathways are up-regulated in CCA cell lines and mouse CCA tumors.Interestingly,targeting cell cycle and notch pathways using small molecules also exhibited significant beneficial effects in controlling tumor malignancy.More importantly,we demonstrated that several cell cycle and Notch associated genes are significantly associated with poor overall survival and disease-free survival using the Log-Rank test.CONCLUSION In summary,our study comprehensively analyzed the gene expression pattern of CCA samples using publicly available datasets and identified the cell cycle and Notch pathways are potential therapeutic targets in this deadly disease.展开更多
基金Supported by 2017 AASLD Pinnacle Research Career Development Award.
文摘BACKGROUND Cholangiocarcinoma(CCA)is a devastating malignancy and has a very poor prognosis if tumors spread outside the liver.Understanding the molecular mechanisms underlying the CCA progression will likely yield therapeutic approaches toward treating this deadly disease.AIM To determine the molecular pathogenesis in CCA progression.METHODS In silico analysis,in vitro cell culture,CCA transgenic animals,histological,and molecular assays were adopted to determine the molecular pathogenesis.RESULTS The transcriptomic data of human CCA samples were retrieved from The Cancer Genome Atlas(TGCA,CHOL),European Bioinformatics Institute(EBI,GAD-00001001076),and Gene Expression Omnibus(GEO,GSE107943)databases.Using Gene set enrichment analysis,the cell cycle and Notch related pathways were demonstrated to be significantly activated in CCA in TCGA and GEO datasets.We,through differentially expressed genes,found several cell cycle and notch associated genes were significantly up-regulated in cancer tissues when compared with the non-cancerous control samples.The associated genes,via quantitative real-time PCR and western blotting assays,were further examined in normal human cholangiocytes,CCA cell lines,mouse normal bile ducts,and mouse CCA tumors established by specifically depleting P53 and expressing KrasG12D mutation in the liver.Consistently,we validated that the cell cycle and Notch pathways are up-regulated in CCA cell lines and mouse CCA tumors.Interestingly,targeting cell cycle and notch pathways using small molecules also exhibited significant beneficial effects in controlling tumor malignancy.More importantly,we demonstrated that several cell cycle and Notch associated genes are significantly associated with poor overall survival and disease-free survival using the Log-Rank test.CONCLUSION In summary,our study comprehensively analyzed the gene expression pattern of CCA samples using publicly available datasets and identified the cell cycle and Notch pathways are potential therapeutic targets in this deadly disease.