Project description:Myc-driven medulloblastoma cells treated with Panobinostat (LBH589)

Project description:Novel MYC-driven medulloblastoma models generated by CRISPR activation of endogenous Myc

Project description:Novel MYC-driven medulloblastoma models generated by CRISPR activation of endogenous Myc

Project description:Medulloblastoma (MB) is the most common malignant brain tumor in children. Patients whose tumors exhibit overexpression or amplification of the MYC oncogene (c-MYC) usually have an extremely poor prognosis, but there are no animal models of this subtype of the disease. Here we show that cerebellar stem cells expressing Myc and mutant Trp53 (p53) generate aggressive tumors following orthotopic transplantation. These tumors consist of large, pleiomorphic cells and resemble human MYC-driven MB at a molecular level. Notably, antagonists of PI3K/mTOR signaling, but not Hedgehog signaling, inhibit growth of tumor cells. These findings suggest that cerebellar stem cells can give rise to MYC-driven MB, and identify a novel model that can be used to test therapies for this devastating disease. To gain insight into the pathways that control growth of MYC-driven MB, we compared gene expression profiles of murine Myc/DNp53 (MP) tumor cells to those of freshly isolated cerebellar stem cells (Prom1+Lin- cells) and of tumors from Ptch1 mutant mice (a model for Sonic Hedgehog-associated MB). RNA was isolated from stem cells and tumor cells using the RNAqueous kit (Ambion). RNA was labeled and hybridized to Affymetrix Mouse Genome 430 2.0 arrays. 19 mouse cell samples (stem cells and tumor cells) were analyzed. There are four groups of samples, three with five biological replicates and the last with four (one outlier was removed). To gain insight into the mechanisms of transformation into tumors, we compared the gene expression profiles of MP tumor cells derived from stem cells (Myc/DNp53-infected Prom1+Lin- cells, designated MP-pl) or progenitors (Myc/DNp53-infected Prom1+ cells, designated MP-p) to gene expression profiles of uninfected stem cells (designated NSC) and profiles from a distinct model of medulloblastoma, the patched mutant mouse (designated ptch1).

Project description:Group 3 medulloblastoma is often associated with MYC amplification or overexpression, while whether MYC overexpression alone is sufficient to induce tumorigenesis is unknown and the cell type(s) which can be transformed by MYC is unclear. Here, by generating a new mouse model, we demonstrated that overexpression of Myc alone is sufficient to transform astrocyte progenitors and granule neuron progenitors (GNP) in the early postnatal cerebellum following orthotopic transplantation. The resulting tumors resemble human Group 3 medulloblastoma in terms of both histology and gene expression profiles. Using these models we found that inhibition of lactate dehydrogenase A (LDHA) significantly reduced both murine and human MYC-driven tumor growth, but did not affect SHH medulloblastoma, indicating that LDHA is potential and specific therapeutic target for MYC-driven medulloblastoma.

Project description: Not available

Project description:We created mice, which are deficient for Myc specifically in cardiac myocytes by crossing crossed Myc-floxed mice (Mycfl/fl) and MLC-2VCre/+ mice. Serial analysis of earlier stages of gestation revealed that Myc-deficient mice died prematurely at E13.5-14.5. Morphological analyses of E13.5 Myc-null embryos showed normal ventricular size and structure; however, decreased cardiac myocyte proliferation and increased apoptosis was observed. BrdU incorporation rates were also decreased significantly in Myc-null myocardium. Myc-null mice displayed a 3.67-fold increase in apoptotic cardiomyocytes by TUNEL assay. We examined global gene expression using oligonucleotide microarrays. Numerous genes involved in mitochondrial death pathways were dysregulated including Bnip3L and Birc2. Keywords: wildtype vs Myc-null

Project description:We undertook a comprehensive clinical and biological investigation of serial medulloblastoma biopsies obtained at diagnosis and relapse. Combined MYC gene family amplifications and P53 pathway defects commonly emerged at relapse, and all patients in this molecular group died of rapidly progressive disease post-relapse. To study this genetic interaction, we investigated a transgenic model of MYCN-driven medulloblastoma and found spontaneous development of Trp53 inactivating mutations. Abrogation of Trp53 function in this model produced aggressive tumors that mimicked the characteristics of relapsed human tumors with combined P53-MYC dysfunction. Restoration of p53 activity, genetic and therapeutic suppression of MYCN all reduced tumor growth and prolonged survival. Our findings identify P53–MYC interactions which emerge at medulloblastoma relapse as biomarkers of clinically aggressive disease that may be targeted therapeutically. Using this dataset, assignation of medulloblastoma molecular subgroup by Illumina 450k microarray was performed for diagnostic and relapsed medulloblastoma samples to compare subgroup membership at diagnosis and relapse. We investigated the DNA methylation profiles of 18 diagnostic and 22 relapsing samples (including 15 diagnostic / relapse pairs) using the Illumina 450k methylation microarray

Project description:By combining extensive biochemical fractionation with quantitative mass spectrometry, we directly examined the composition of soluble multiprotein complexes among diverse animal models. The project has been jointly supervised by Andrew Emili and Edward M. Marcotte. Project website: http://metazoa.med.utoronto.ca

Project description:Inactivation of Ezh2 upregulates Gfi1 and drives aggressive Myc-driven Group 3 medulloblastoma [ChIP-Seq]