Project description:Tumor heterogeneity is a major challenge to the treatment of colorectal cancer (CRC). Recently, a transcriptome-based classification was developed, segregating CRC into four consensus molecular subtypes (CMS) with distinct biological and clinical characteristics. Here, we applied the CMS classification on CRC cell lines to identify novel subtype-specific drug vulnerabilities. We combined publicly available transcriptome data from multiple resources to assign 159 CRC cell lines to CMS. By integrating results from large scale drug screens, we discovered that CMS1 cancer is highly vulnerable to the survivin suppressor YM155. We confirmed our results using an independent panel of CRC cell lines and demonstrate a 100-fold higher sensitivity of CMS1 lines. This vulnerability was specific to YM155 and not observed for commonly used chemotherapeutic agents. In CMS1 cancer, low concentrations of YM155 induced apoptosis and expression signatures associated with NFkappaB and ER stress mediated apoptosis signaling. Using a genome-wide CRISPR/Cas9 screen, we discovered a novel role of genes involved in LDL-receptor recycling as modulators of YM155 response in CMS1 CRC. Our work shows that combining drug response data with CMS classification in cell lines can reveal specific vulnerabilities and propose YM155 as novel CMS1 specific drug.

Project description:Tumor heterogeneity is a major challenge to the treatment of colorectal cancer (CRC). Recently, a transcriptome-based classification was developed, segregating CRC into four consensus molecular subtypes (CMS) with distinct biological and clinical characteristics. Here, we applied the CMS classification on CRC cell lines to identify novel subtype-specific drug vulnerabilities. We combined publicly available transcriptome data from multiple resources to assign 159 CRC cell lines to CMS. By integrating results from large scale drug screens, we discovered that CMS1 cancer is highly vulnerable to the survivin suppressor YM155. We confirmed our results using an independent panel of CRC cell lines and demonstrate a 100-fold higher sensitivity of CMS1 lines. This vulnerability was specific to YM155 and not observed for commonly used chemotherapeutic agents. In CMS1 cancer, low concentrations of YM155 induced apoptosis and expression signatures associated with NFkappaB and ER stress mediated apoptosis signaling. Using a genome-wide CRISPR/Cas9 screen, we discovered a novel role of genes involved in LDL-receptor recycling as modulators of YM155 response in CMS1 CRC. Our work shows that combining drug response data with CMS classification in cell lines can reveal specific vulnerabilities and propose YM155 as novel CMS1 specific drug. We performed expression profiling experiments in order to validate molecular subtypes for selected cell lines

Project description:Drug-induced mitochondrial oxidative stress is responsible for various effects of the survivin inhibitor Sepantronium Bromide (YM155) in triple negative breast cancer cells

Project description:We used microarrays to detail the gene expression profiles of KYSE410 cell line to identify distinct up and down-regulated genes during treatment with cisplatin. KYSE410 cell line were treated with 20 nM YM155 for 6 hrs and selected for RNA extraction and hybridization on Affymetrix microarrays. We sought to gene expression profiles of KYSE 410 cell line treated with cisplatin.

Project description: Not available

Project description:SLC35F2 was identified as a transporter of DNA damage inducing agent YM155. We then did a comparative transcriptomics experiment comparing wild-type and SLC35F2 knock-out KBM7 cells.

Project description:EZH2 inhibitors have been developed to treat certain cancers. To maximize the anticancer acttivity of EZH2 inhibition, we combined an EZH2 inhibitor EPZ6438 with YM155, which leads to dramatic cell death. We used microarrays to detail the global gene expression profiles.

Project description:CD4 T cells from 4 healthy women were activated with aCD3 and treated with the survivin inhibitor YM155, 10 ng/ml or control during 24 hours. The last 2 hours with upplement of IFNg. The objective was to understand the action of survivin (coded by BIRC5 gene) in CD4 T cells.

Project description:CD4 T cells from 4 healthy women were activated with aCD3 and treated with the survivin inhibitor YM155, 10 ng/ml or control during 72 hours. The last 2 hours with upplement of IFNg. The objective was to understand the action of survivin (coded by BIRC5 gene) in CD4 T cells.

Project description: Not available