Project description:IMPRINTS-CETSA data acquisition of Kasumi-1 cells treated with Vehicle (DMSO), Venetoclax, Decitabine, Azacitidine and Azacitidine+Venetoclax using TMT 16 plex.
Project description:IMPRINTS-CETSA data acquisition of Kasumi-1 cells treated with Vehicle (DMSO), Venetoclax, Decitabine, Azacitidine and Azacitidine+Venetoclax using TMT 16 plex.
Project description:Transcriptomic profiling was performed on six cell lines derived from infants with KMT2A-rearranged ALL following treatment with two hypomethylating drugs (azacitidine and decitabine) administered at low doses for 72 hours in vitro. We identified changes in gene expression following treatment with hypomethylating agents, with decitabine exerting a greater effect than azacitidine.
Project description:Genome-wide methylation profiling was performed on six cell lines derived from infants with KMT2A-rearranged ALL following treatment with three hypomethylating drugs (azacitidine, decitabine and zebularine) administered at low doses for 72 hours in vitro. We identified drug-specific and common differentially methylated regions and validated differentially expressed genes located within such regions, indicating commonalities in pathways targeted by azacitidine and decitabine in KMT2A-rearranged infant ALL. Of the three drugs, the most significant degree of hypomethylation was induced by decitabine followed by azacitidine, whereas zebularine did not exert a significant hypomethylating effect.
Project description:In addition to the generation and analysis of metabolomics data on cell lines, samples of normal lung tissue, adenocarcinoma lung tissue and small cell lung carcinoma tissue (seven samples/group) were processed and evaluated metabolite profile differences under the scope of the pilot and feasibility study. These data can be correlated to the metabolite profiles defined in the SCLC and NSCLC cell lines and integrated with the ABPP-determined metabolic kinases to identify distinct metabolic signatures or biomarkers (?oncometabolites?) that distinguish small cell lung cancer from non-small cell lung cancer.
Project description:Azacitidine (AZA) and decitabine (DAC) are cytidine azanucleoside analogs with clinical activity in myelodysplastic syndromes (MDS) and potential activity in solid tumors. To better understand the mechanism of action of these drugs, we examined the effects of AZA and DAC in a panel of non-small cell lung cancer (NSCLC) cell lines. Of 5 NSCLC lines tested in a cell viability assay, all were sensitive to AZA (EC50 of 1.8M-bM-^@M-^S10.5 M-BM-5M), while only H1299 cells were equally sensitive to DAC (EC50 of 5.1 M-BM-5M). In the relatively DAC-insensitive cell line A549, both AZA and DAC caused DNA methyltransferase I depletion and DNA hypomethylation; however, only AZA significantly induced markers of DNA damage and apoptosis, suggesting that mechanisms in addition to, or other than, DNA hypomethylation are important for AZA-induced cell death. Cell cycle analysis indicated that AZA induced an accumulation of cells in sub-G1 phase, whereas DAC mainly caused an increase of cells in G2/M. Gene expression analysis of AZA- and DAC-treated cells revealed strikingly different profiles, with many genes distinctly regulated by each drug. In summary, while both AZA and DAC caused DNA hypomethylation, distinct effects were demonstrated on regulation of gene expression, cell cycle, DNA damage, and apoptosis. A549 and H1299 cells were treated with a dose range (0.3M-bM-^@M-^S3.0 M-NM-<M) of AZA or DAC for 48 hours, and effects on gene expression were assessed by microarray analysis.
