Project description:Hepatocellular carcinoma (HCC) represents the major subtype of liver cancer, characterized with a high rate of recurrence and heterogeneity. Liver cancer stem cells (CSCs) may account for a hierarchical organization of heterogeneous cancer cells. However, how liver CSCs sustain their self-renewal remains largely unknown. We used microarrays to discover the long non-coding RNAs (lncRNAs) expression underlying cell stem cell (CSC) and non cell stem cell (non-CSC) and identified distinct lncRNAs during this process.

Project description:Hepatocellular carcinoma (HCC) represents the major subtype of liver cancer, characterized with a high rate of recurrence and heterogeneity. Liver cancer stem cells (CSCs) may account for a hierarchical organization of heterogeneous cancer cells. However, how liver CSCs sustain their self-renewal remains largely unknown. We used microarrays to discover the long non-coding RNAs (lncRNAs) expression underlying cell stem cell (CSC) and non cell stem cell (non-CSC) and identified distinct lncRNAs during this process. We sorted CD13+CD133+ and CD13-CD133- cells from Hep3B, Huh7, and PLC/PRF/5 HCC cell lines as liver CSCs and non-CSCs, then hybridized on Affymetrix microarrays. We sought to identify distinct lncRNAs in liver CSCs.

Project description:Hepatocellular carcinoma (HCC) represents the major subtype of liver cancer, characterized with a high rate of recurrence and heterogeneity. Liver cancer stem cells (CSCs) may account for a hierarchical organization of heterogeneous cancer cells. However, how liver CSCs sustain their self-renewal remains largely unknown. We used microarrays to discover the long non-coding RNAs (lncRNAs) expression underlying cell stem cell (CSC) and non cell stem cell (non-CSC) and identified distinct lncRNAs during this process.

Project description:Genome-wide miRNA expression profiles of 100 primary and matched non-malignant tissues of HCC patients from a Singapore patient cohort. HCC is a hetergenous disease and it is important to understand the underlying molecular mechanisms. Here, we studied the role of microRNAs in HCC by integrating microRNA and gene expression profiles of HCC patients. Profiling of 100 primary and adjacent non-malignant HCC tissue samples on mirXplore two-color miRNA expression microarray. All tissues were collected with approvals from the National Cancer Centre, Singapore; the Research Ethics Review Committee; and signed patient informed consent.

Project description:Genome-wide mRNA expression profiles of 100 primary and matched non-malignant tissues of HCC patients from a Singapore patient cohort. HCC is a hetergenous disease and it is important to understand the underlying molecular mechanisms. Here, we studied the role of microRNAs in HCC by integrating microRNA and gene expression profiles of HCC patients.

Project description:Genome-wide miRNA expression profiles of 100 primary and matched non-malignant tissues of HCC patients from a Singapore patient cohort. HCC is a hetergenous disease and it is important to understand the underlying molecular mechanisms. Here, we studied the role of microRNAs in HCC by integrating microRNA and gene expression profiles of HCC patients.

Project description:Genome-wide mRNA expression profiles of 100 primary and matched non-malignant tissues of HCC patients from a Singapore patient cohort. HCC is a hetergenous disease and it is important to understand the underlying molecular mechanisms. Here, we studied the role of microRNAs in HCC by integrating microRNA and gene expression profiles of HCC patients. Profiling of 100 primary and adjacent non-malignant HCC tissue samples on Agilent two-color whole human genome gene expression microarray (design G4112F). All tissues were collected with approvals from the National Cancer Centre, Singapore; the Research Ethics Review Committee; and signed patient informed consent.

Project description:To identify novel molecular markers associated with the maintenance of HCC CSCs

Project description:In the present study, we have characterized the putative Cancer Stem Cell population of Oral Squamous Cell Carcinoma by various cellular and molecular assay. Subsequently we performed gene expression profiling of SCC25 cell line with CD44highCD24low(CSC) and CD44lowCD24high(Non-CSC) phenotypes using illumina BeadChip Array. Further, systematic computational analysis was performed to identify CSC-like gene signatures in the oral cancer cells. Differentially expressed genes were subjected to pathway analysis in IPA. The analysis lead to the identification of few relevant signaling pathway implicated in stemness.

Project description:To explore the target genes of long noncoding RNA lncTCF7, we established lncTCF7-silenced HCC primary CSC cells and conducted transcriptome microarray analysis. We used microarrays to identify distinct gene expression underlying shCtrl and shlncTCF7 of hepatocellular carcinoma sample stem cells. We cultured shlncTCF7 and shCtrl cells from hepatocellular carcinoma (HCC) clinical sample, then hybridized on Affymetrix microarrays. We sought to identify distinct target genes of lncTCF7 in liver cancer stem cells (CSCs).