Project description:There are concerns about whether cancer cell lines could faithfully represent the matched primary cancer cells. Comparison of the HCC cell lines and primary HCCs demonstrated that, during long-term in vitro culture, cell lines retain the genetic landscape of the matched primary HCCs.
Project description:There are concerns about whether cancer cell lines could faithfully represent the matched primary cancer cells. Comparison of the HCC cell lines and primary HCCs demonstrated that, during long-term in vitro culture, cell lines retain the genetic landscape of the matched primary HCCs.
Project description:p53 suppresses tumor progression and metastasis by regulating a large set of genes and microRNAs. By profiling 92 primary hepatocellular carcinomas (HCCs) and 9 HCC cell lines, we found that p53 upregulates microRNAs including miR-200 and miR-192 family members. By sequencing TP53 in 92 HCC samples, we classified the 92 samples into two groups (wt and mut). We also classified 9 HCC cell lines by testing p21 expression after DNA-damage mediated p53 activation. We then profiled microRNA expression in 92 HCC tissue samples and 9 HCC celll lines to identify p53-regulated microRNAs.
Project description:p53 suppresses tumor progression and metastasis by regulating a large set of genes and microRNAs. By profiling 92 primary hepatocellular carcinomas (HCCs) and 9 HCC cell lines, we found that p53 upregulates microRNAs including miR-200 and miR-192 family members.
Project description:Hepatocellular carcinoma (HCC) is the third leading cause of cancer-related death worldwide. We sequenced and analyzed the whole genomes of primary HCCs. To examine the influence of transcription-coupled repair (TCR) on somatic substitution patterns in HCC, we performed expression microarrays analysis and compared gene expression levels and the number of substitutions in 7 HCCs. Seven primary HCC were analyzed and compared with somatic substituion numbers.