Project description:Investigation of B cell lymphomas (IgM+ IgD+) located in various places (lung, mesenteric lymph nodes,…) of three different c-myc Igh transgenic mice. Insertion of c-myc in 5' to Emu (cr), in 5' to Cmu with Emu deletion (hv), and in Calpha (co).

Project description:MYC translocations are the biologic hallmark of Burkitt lymphomas but also occur in other mature B-cell lymphomas. If accompanied by chromosomal breaks targeting the BCL2 and/or BCL6 oncogenes, these MYC translocation-positive (MYC+) lymphomas are called double-hit lymphomas (DHLs); otherwise, the term single-hit lymphoma (SHL) is applied. In order to characterize the biologic features of these MYC+ lymphomas other than Burkitt lymphomas, we explored, after exclusion of molecular Burkitt lymphoma (mBL) as defined by gene expression profiling (GEP), the molecular, pathological and clinical aspects of 80 MYC translocation (MYC+) lymphomas (31 SHL, 26 BCL2+/MYC+, 14 BCL6+/MYC+, 6 BCL2+/BCL6+/MYC+ and 3 MYC+ lymphomas with unknown BCL6 status). Comparison of SHL and DHL revealed no difference in frequency of MYC partner (IG/non-IG), genomic complexity or MYC expression and no differences in GEP. DHL showed a more frequent GCB-like GEP and higher IGH and MYC mutation rates. GEP revealed 130 differentially expressed genes between BCL6+/MYC+ and BCL2+/MYC+ DHL. BCL2+/MYC+ DHL showed a more frequent GCB-like GEP. Analysis of all lymphomas according to MYC partner (IG/non-IG) revealed no substantial differences. In contrast to mBL and lymphomas without MYC break, SHL and DHL patients had similar poor outcome. Our data suggest that after excluding mBL, MYC+ lymphomas could be biologically widely lumped without further need for subclassification.

Project description:MYC translocations are the biologic hallmark of Burkitt lymphomas but also occur in other mature B-cell lymphomas. If accompanied by chromosomal breaks targeting the BCL2 and/or BCL6 oncogenes, these MYC translocation-positive (MYC+) lymphomas are called double-hit lymphomas (DHLs); otherwise, the term single-hit lymphoma (SHL) is applied. In order to characterize the biologic features of these MYC+ lymphomas other than Burkitt lymphomas, we explored, after exclusion of molecular Burkitt lymphoma (mBL) as defined by gene expression profiling (GEP), the molecular, pathological and clinical aspects of 80 MYC translocation (MYC+) lymphomas (31 SHL, 26 BCL2+/MYC+, 14 BCL6+/MYC+, 6 BCL2+/BCL6+/MYC+ and 3 MYC+ lymphomas with unknown BCL6 status). Comparison of SHL and DHL revealed no difference in frequency of MYC partner (IG/non-IG), genomic complexity or MYC expression and no differences in GEP. DHL showed a more frequent GCB-like GEP and higher IGH and MYC mutation rates. GEP revealed 130 differentially expressed genes between BCL6+/MYC+ and BCL2+/MYC+ DHL. BCL2+/MYC+ DHL showed a more frequent GCB-like GEP. Analysis of all lymphomas according to MYC partner (IG/non-IG) revealed no substantial differences. In contrast to mBL and lymphomas without MYC break, SHL and DHL patients had similar poor outcome. Our data suggest that after excluding mBL, MYC+ lymphomas could be biologically widely lumped without further need for subclassification. 32 diffuse large B-cell lymphoma samples were hybridized to HG-U133A Affymetrix GeneChips. In addition, this study contains 30 already published samples, which contribute to GSE4475 (Hummel et al. 2006 (PMID 16760442)), as well as 18 already published samples from GSE22470 (Salaverria et al. 2011 (PMID 21487109)). No re-normalisation of the published samples was performed. The complete dataset representing: (1) the 32 diffuse large B-cell lymphoma Samples, (2) the 30 Samples from GSE4475 and (3) the 18 Samples from GSE22470, is linked below as a supplementary file

Project description:Amino acid levels analysis of lymphomas isolated from Eu-Myc;CD19-Cre;Odc fl/fl mic and their wild-type counterparts Eu-Myc;CD19-Cre;Odc +/+

Project description:The suppression of oncogenic levels of MYC is sufficient to induce sustained tumor regression associated with proliferative arrest, differentiation, cellular senescence and/or apoptosis, a phenomenon known as oncogene addiction. However, after prolonged inactivation of MYC in a conditional transgenic mouse model of Em-tTA/tetO-MYC T-acute lymphomablastic lymphoma (T-ALL), some of the tumors recur, recapitulating what is frequently observed in human tumors in response to targeted therapies. Here we report that these recurring lymphomas express high levels of either transgenic or endogenous Myc suggesting that tumors continue to be addicted to oncogenic levels of MYC. Many of the recurring lymphomas (76%) harbored mutations in the tetracycline transactivator (tTA) resulting in expression of the MYC transgene even in the presence of doxycycline. Many of the remaining recurring tumors expressed high levels of endogenous Myc which was in some cases associated with a genomic rearrangement of the endogenous Myc locus or overexpression of Notch1. Gene expression profiling confirmed that the primary and recurring tumors have highly similar transcriptomes. Importantly, shRNA-mediated suppression of the high levels of MYC in recurring tumors elicited both suppression of proliferation and increased apoptosis confirming that these tumors remain oncogene addicted. These results suggest that tumors caused by MYC overexpression remain addicted to high levels of expression of this oncogene. 13 samples, no replicates included

Project description:The suppression of oncogenic levels of MYC is sufficient to induce sustained tumor regression associated with proliferative arrest, differentiation, cellular senescence and/or apoptosis, a phenomenon known as oncogene addiction. However, after prolonged inactivation of MYC in a conditional transgenic mouse model of Em-tTA/tetO-MYC T-acute lymphomablastic lymphoma (T-ALL), some of the tumors recur, recapitulating what is frequently observed in human tumors in response to targeted therapies. Here we report that these recurring lymphomas express high levels of either transgenic or endogenous Myc suggesting that tumors continue to be addicted to oncogenic levels of MYC. Many of the recurring lymphomas (76%) harbored mutations in the tetracycline transactivator (tTA) resulting in expression of the MYC transgene even in the presence of doxycycline. Many of the remaining recurring tumors expressed high levels of endogenous Myc which was in some cases associated with a genomic rearrangement of the endogenous Myc locus or overexpression of Notch1. Gene expression profiling confirmed that the primary and recurring tumors have highly similar transcriptomes. Importantly, shRNA-mediated suppression of the high levels of MYC in recurring tumors elicited both suppression of proliferation and increased apoptosis confirming that these tumors remain oncogene addicted. These results suggest that tumors caused by MYC overexpression remain addicted to high levels of expression of this oncogene.

Project description:Transcriptional profiling Myc-driven lymphomas to determine pathways by which Wrn deficiency impairs tumor development Total RNA isolated from Eµ-Myc and Eµ-Myc Wrn Δhel/Δhel murine B-cell lymphomas (n=4)

Project description:Retroviral insertional mutagenesis (RIM) is a powerful tool in cancer genomics. Transgenic mice expressing two potent collaborating oncogenes in the germline, Myc and Runx2, develop rapid onset tumours that can be accelerated and rendered polyclonal by neonatal infection with MoMLV. Deep sequencing of lymphomas from infected Runx2/Myc mice revealed a network of progression genes. Transcriptional analysis of basal expression levels in transgenic cells showed that the progression network showed strong evidence of clonal selection beyond gene expression level.

Project description:This phase I/II trial studies the side effects and best dose of lenalidomide when given together with combination chemotherapy and to see how well they work in treating patients with v-myc myelocytomatosis viral oncogene homolog (avian) (MYC)-associated B-cell lymphomas. Lenalidomide may stop the growth of B-cell lymphomas by blocking the growth of new blood vessels necessary for cancer growth and by blocking some of the enzymes needed for cell growth. Biological therapies, such as lenalidomide, use substances made from living organisms that may stimulate or suppress the immune system in different ways and stop cancer cells from growing. Drugs used in chemotherapy, such as etoposide, prednisone, vincristine sulfate, doxorubicin hydrochloride, cyclophosphamide, work in different ways to stop the growth of cancer cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. Monoclonal antibodies, such as rituximab, may block cancer growth in different ways by targeting certain cells. Giving lenalidomide together with combination chemotherapy may be an effective treatment in patients with B-cell lymphoma.

Project description:We used array CGH data from Eµ-myc lymphomas to assess significant differences in DNA copy number variation between Cluster 1 and Cluster 2 lymphomas.