Project description:CpG island methylation profiling of human cholangiocarcinoma, ECC and ICC, cases compared to matched normal controls or to pools of corresponding normal controls. Goal was to identify cholangiocarcinoma-specific differentially methylated regions (DMRs). Highly methylated DNA from cases and controls was enriched by methyl CpG-immunoprecipitation (MCIp) and co-hybridized. DMRs were defined by stepwise stringent criteria such as selecting top 5% vicinal array probes only. ECC- and ICC-specific and common DMRs were identified.

Project description:CpG island methylation profiling of human cholangiocarcinoma, ECC and ICC, cases compared to matched normal controls or to pools of corresponding normal controls. Goal was to identify cholangiocarcinoma-specific differentially methylated regions (DMRs).

Project description:BACKGROUND & AIMS: Cholangiocarcinoma, the second most common liver cancer, can be classified as intrahepatic (ICC) or extrahepatic. We performed an integrative genomic analysis of ICC samples from a large series of patients. METHODS: We performed gene expression profile, high-density single nucleotide polymorphism array, and mutation analyses using formalin-fixed ICC samples from 149 patients. Associations with clinico-pathological traits and patient outcomes were examined for 119 cases. Class discovery was based on a non-negative matrix factorization algorithm and significant copy number variations (CNV) were identified by GISTIC analysis. Gene set enrichment analysis was used to identify signaling pathways activated in specific molecular classes of tumors, and to analyze their genomic overlap with hepatocellular carcinoma (HCC). RESULTS: We identified 2 main biological classes of ICC. The inflammation class (38% of ICCs) is characterized by activation of inflammatory signaling pathways, overexpression of cytokines, and STAT3 activation. The proliferation class (62%) is characterized by activation of oncogenic signaling pathways (including RAS, mitogen-activated protein kinase, and MET), DNA amplifications at 11q13.2, deletions at 14q22.1, mutations in KRAS and BRAF, and gene expression signatures previously associated with poor outcomes for patients with HCC. CNV-based clustering was able to further refine these molecular groups. We identified high-level amplifications in 5 regions, including 1p13 (9%) and 11q13.2 (4%), and several focal deletions, such as 9p21.3 (18%) and 14q22.1 (12% in coding regions for the SAV1 tumor suppressor). In a complementary approach, we identified a gene expression signature that was associated with reduced survival times of patients with ICC; this signature was enriched in the proliferation class (P<0.001). CONCLUSIONS: We used an integrative genomic analysis to identify 2 classes of ICC. The proliferation class has specific copy number alterations, many features of the poor-prognosis signatures for HCC, and is associated with worse outcome. Different classes of ICC, based on molecular features, might therefore require different treatment approaches. Gene-expression profiling was performed using formalin-fixed, paraffin-embedded intrahepatic cholangiocarcinoma tissues obtained at the time of surgical resection.

Project description:BACKGROUND & AIMS: Cholangiocarcinoma, the second most common liver cancer, can be classified as intrahepatic (ICC) or extrahepatic. We performed an integrative genomic analysis of ICC samples from a large series of patients. METHODS: We performed gene expression profile, high-density single nucleotide polymorphism array, and mutation analyses using formalin-fixed ICC samples from 149 patients. Associations with clinico-pathological traits and patient outcomes were examined for 119 cases. Class discovery was based on a non-negative matrix factorization algorithm and significant copy number variations (CNV) were identified by GISTIC analysis. Gene set enrichment analysis was used to identify signaling pathways activated in specific molecular classes of tumors, and to analyze their genomic overlap with hepatocellular carcinoma (HCC). RESULTS: We identified 2 main biological classes of ICC. The inflammation class (38% of ICCs) is characterized by activation of inflammatory signaling pathways, overexpression of cytokines, and STAT3 activation. The proliferation class (62%) is characterized by activation of oncogenic signaling pathways (including RAS, mitogen-activated protein kinase, and MET), DNA amplifications at 11q13.2, deletions at 14q22.1, mutations in KRAS and BRAF, and gene expression signatures previously associated with poor outcomes for patients with HCC. CNV-based clustering was able to further refine these molecular groups. We identified high-level amplifications in 5 regions, including 1p13 (9%) and 11q13.2 (4%), and several focal deletions, such as 9p21.3 (18%) and 14q22.1 (12% in coding regions for the SAV1 tumor suppressor). In a complementary approach, we identified a gene expression signature that was associated with reduced survival times of patients with ICC; this signature was enriched in the proliferation class (P<0.001). CONCLUSIONS: We used an integrative genomic analysis to identify 2 classes of ICC. The proliferation class has specific copy number alterations, many features of the poor-prognosis signatures for HCC, and is associated with worse outcome. Different classes of ICC, based on molecular features, might therefore require different treatment approaches. DNA copy number profiling was performed using formalin-fixed, paraffin-embedded intrahepatic cholangiocarcinoma tissues obtained at the time of surgical resection.

Project description:The experiment was designed to display differential gene expression profiling in three human intrahepatic cholangiocarcinoma (ICC) cells upon knockdow of LKB1 tumor suppressor, by using RNAseq technology. LKB1 was first attenuated in three ICC cells: HuH-28, RBE, and SSP-25 by siRNA-mediated knockdown. Total RNA was extracted from duplicated cancers cells transfected with control siRNA and LKB1 specific siRNA at 48h posttransfection for RNAseq analysis. Differentially expressed genes in LKB1-attenuated ICC cells were identified in comparison to that in ICC cells transfected with control siRNA.

Project description:Using single-cell RNA sequencing, spatial transcriptomic and bulk multi-omics, we elaborated a molecular architecture of 3 PLC types, namely hepatocellular carcinoma (HCC), intrahepatic cholangiocarcinoma (ICC) and combined hepatocellular-cholangiocarcinoma (CHC) from a high-resolution perspective.

Project description:Biliary tract cancer (BTC) ranks among the most lethal human malignancies, thereby representing an unmet clinical need. In this study, we find that the Pdx1-positive extrahepatic biliary epithelium is highly susceptible towards transformation by activated Pik3caH1047R, but completely refractory to oncogenic KrasG12D. Using genome-wide in vivo piggyBac transposon-based forward genetic screening and genetic loss-of-function experiments, we discover important extrahepatic cholangiocarcinoma (ECC) cancer genes and find that PI3K-signaling output strength and repression of the tumor suppressor p27Kip1 are critical context-specific determinants of tumor formation. This contrasts the pancreas, where oncogenic Kras in concert with Trp53 loss of function are key cancer drivers. Notably, inactivation of p27Kip1 permits KrasG12D-driven ECC development, and bypasses oncogene-induced senescence without triggering the Trp53 pathway. These studies provide a mechanistic link between PI3K-signaling, tissue-specific tumor suppressor barriers, and ECC pathogenesis, and present a novel genetic model of autochthonous ECC and genes driving this highly lethal tumor-subtype.

Project description:The experiment was designed to display differential gene expression profiling in three human intrahepatic cholangiocarcinoma (ICC) cells upon knockdow of LKB1 tumor suppressor, by using RNAseq technology.

Project description:We compared transcriptomic profiles of ICC tumor specimens to hepatocellular carcinoma (HCC) specimens using Affymetrix mRNA array and the miRNA array platforms to search for unique gene signatures linked to patient prognosis. ICC and HCC share common stem-like molecular characteristics and stem-like tumor features associated with poor prognosis. Gene expression profiling of 16 intrahepatic cholangiocarcinoma (ICC), 7 mixed type of combined hepatocellular cholangiocarcinoma (CHC), 2 Hepatic adenoma, 3 focal nodular hyperplasia (FNH), 5 non-tumor liver tissues, and 2 CCA cell lines were performed.

Project description:Cholangiocarcinoma is the second most common primary hepatic malignancy worldwide, with intrahepatic cholangiocarcinoma (ICC) a particularly significant public health problem in Southeast Asia, due to its strong association with the food-borne parasite Opisthorchis viverrini (OV). This manuscript represents the first comprehensive miRNA expression profiling by microarray of the three most common histological grades of OV-induced ICC: moderately differentiated, papillary, and well differentiated tumor tissue. No cohort of miRNAs emerged as commonly dysregulated among these histological grades of OV-induced ICC. Instead, each histological grade of ICC tissue showed a distinct miRNA profile. Moderately differentiated tumor tissue showed both the greatest number and the highest magnitude of miRNA dysregulation, followed by papillary ICC tumor tissue, and differentiated ICC tumor tissue. When ICC tumor tissue was compared to adjacent non-tumor tissue, a remarkable similarity in miRNA dysregulation was observed between these samples, indicative of intrahepatic metastasis. These findings indicate the possibility of determining the histological grade of ICC by profiling miRNA dysregulation, which not only would greatly enhance the molecular diagnosis of ICC, but could even lead to the personalized the treatment for ICC by the early classification of histological grade. A total of 46 unique liver tissue samples were analyzed on Agilent human miRNA microarray (miRBase Release 16.0). Of the 46 samples, 13 are from non-cancer healthy patients with gastric bypass surgery. The rest of 33 samples are CCA tumor tissue samples and their paired adjacent normal/necrotic tissue: 12 from well differentiated CCA, 17 from papillary CCA, 4 from moderately differentiated CCA.