Project description:The CREB binding protein inhibitor ICG-001 suppresses pancreatic cancer growth We used microarrays to detail global gene expression changes in the pancreatic cancer cell line AsPC1 following treatment with ICG-001 or siRNA-mediated knockdown of CTNNB1 (beta-catenin) AsPC1 cells were treated with 10uM ICG-001 or vehicle control (DMSO) for either 6 hours or 24 hours. AsPC-1 cells were also separately transfected with 20nM control siRNA or CTNNB1 siRNA for 48 hours. RNA was extracted at these time points for hybridization to Affymetrix microarrays
Project description:The CREB binding protein inhibitor ICG-001 suppresses pancreatic cancer growth We used microarrays to detail global gene expression changes in the pancreatic cancer cell line AsPC1 following treatment with ICG-001 or siRNA-mediated knockdown of CTNNB1 (beta-catenin)
Project description:By screening a target-focused Wnt-sgnaling small compound library we identified the Wnt-modulator ICG-001 as inihibitory for activating the mitochondrial fission protein Drp1. To explore how ICG-001 might act we undertook gene expression profiling in iCG-001 treated primary macrophages.
Project description:We examined the effects of ICG-001 on gene expression in Mel202 uveal melanoma (UM) cells. ICG-001 exerted strong antiproliferative activity against UM cells, leading to cell cycle arrest, apoptosis, and inhibition of migration. Global gene expression profiling revealed strong suppression of genes associated with cell cycle proliferation, DNA replication, and G1/S transition. Gene set enrichment analysis revealed that ICG-001 suppressed Wnt, mTOR, and MAPK signaling. Strikingly, ICG-001 suppressed the expression of genes associated with UM aggressiveness, including CDH1, CITED1, EMP1, EMP3, SDCBP, and SPARC. Notably, the transcriptomic footprint of ICG-001, when applied to a UM patient dataset, was associated with better clinical outcome. Lastly, ICG-001 exerted anticancer activity against a UM tumor xenograft in mice.
Project description:In pediatric glioma cell lines, treatment with ICG-001 had no inhibitory effect on canonical Wnt-target genes but induced significant up regulation of various known β-catenin target genes in both cell lines and top 20 GO-annotations of down-regulated genes by ICG-001 were associated with biosynthetic and metabolic processes and cell cycle division processes. Pediatric cell lines were treated with ICG-001 or DMSO for 48h
Project description:We have compared the genome-wide effects on the transcriptome after treatment with ICG-001 (the specific CBP inhibitor) versus C646, a compound that competes with acetyl-coA for the Lys-coA binding pocket of both CBP and p300. We found that both drugs cause large-scale changes in the transcriptome of HCT116 colon cancer cells and PANC1 pancreatic cancer cells, and reverse some tumor-specific changes in gene expression. Interestingly, although the epigenetic inhibitors affect cell cycle pathways in both the colon and pancreatic cancer cell lines, the WNT signaling pathway was affected only in the colon cancer cells. Notably, WNT target genes were similarly down-regulated after treatment of HCT116 with C646 as with ICG-001. Total RNA obtained from isolated HCT116 or PANC1 cell lines were treated with 10uM ICG-001, 10uM C646, or 0.05% DMSO and collected after 12 or 96 hours.
Project description:Metabolic gene expression analysis to explore ICG-001’s impact on metabolic changes associated with glioma differentiation after disrupting the CBP/β-Catenin interaction by treating patient-derived GBM cell lines PBT147 and PBT030 with ICG-001 (0, 5, or 10 µM) for 24 and 72 h using Nanostring nCounter platform
Project description:Metabolic gene expression analysis to explore ICG-001’s impact on metabolic changes associated with glioma differentiation after disrupting the CBP/β-Catenin interaction by treating patient-derived GBM cell lines PBT147 and PBT030 with ICG-001 (0, 5, or 10 µM) for 24 and 72 h using Nanostring nCounter platform
Project description:A deeper understanding of the biology of therapy resistant cells is important for the development of optimal therapeutic strategies to attain complete cure of leukemia. Here we compared chromatin accessibility of CML patient cells treated with Imatinib vs untreated cells and column enriched deep-quiescent LI (leukemia initiator) cells. ICG-001 treatment of LIs suggested increased differentiation of LIs.