Project description:mRNA expression profiles were compared between treatment of pitavastatin or not in the presence or absence of a Sendai virus infection.

Project description:This SuperSeries is composed of the following subset Series:; GSE6783: Expression data from HELA cells subject to EGF stimulation; GSE6784: Expression data from MCF10A cells subject to EGF stimulation Experiment Overall Design: Refer to individual Series

Project description:To reveal the function of pitavastatin in cancer, we performed several experiments. In the present study, we show that pitavastatin inhibits the tumor growth through the inactivation of ERK and AKT signals by MET immaturation, and combination of pitavastatin and capmatinib, a MET inhibitor, might be useful cancer therapy in OSCC and ESCC. It could be reduced the dose of pitavastatin by using this combination therapy, resulting in decreasing the risk of adverse events such as myopathy. Taken together, the mevalonate pathway regulates the processes of MET maturation and promotes the cell growth in cancer. Moreover, the expression of GGPS1, an enzyme that synthesizes geranylgeranyl pyrophosphate (GGPP) from farnesyl pyrophosphate (FPP), associates with the sensitivity of pitavastatin, suggesting that GGPS1 could be a biomarker in cancer therapy with pitavastatin. Identification of the function of pitavastatin in oral and esophageal squamous cell carcinoma.

Project description:mRNA polyadenylation profile analysis in control and U1 AMO treated HeLa cells

Project description:Analysis of RNA-seq gene expression signatures in CUTLL3 ETP-ALL cells following treatment with Vehicle or Pitavastatin for 48 hours

Project description:Analysis of H3K27Ac in CUTLL3 ETP-ALL cells following treatment with Vehicle or Pitavastatin for 48 hours

Project description:LEAD-m6A-seq data of HeLa mRNA

Project description:To globally assess the effect of polyadenylation site (PAS) usage upon functional knockdown of U1 snRNP, we carried out PAS-seq analysis with control and U1 AMO-treated HeLa cells using the QuantSeq Rev 3' mRNA sequencing library prep kit (Cat. 016-24).

Project description:We applied LEAD-m6A-seq to 11 sites of HeLa mRNA to probe m6A modification at the target sites.

Project description:HELA cells derived from human cervical tumor were subjected to EGF stimulation for 0,20,40,60,120,240 and 480 minutes. We used microarrays to understand the temporal regulation of the cellular EGFR cascade. Keywords: time course