TY - JOUR A1 - Elkon, Ran A1 - Loayza-Puch, Fabricio A1 - Korkmaz, Gozde A1 - Lopes, Rui A1 - van Breugel, Pieter C A1 - Bleijerveld, Onno B A1 - Altelaar, AF Maarten A1 - Wolf, Elmar A1 - Lorenzin, Francesca A1 - Eilers, Martin A1 - Agami, Reuven T1 - Myc coordinates transcription and translation to enhance transformation and suppress invasiveness JF - EMBO reports N2 - c‐Myc is one of the major human proto‐oncogenes and is often associated with tumor aggression and poor clinical outcome. Paradoxically, Myc was also reported as a suppressor of cell motility, invasiveness, and metastasis. Among the direct targets of Myc are many components of the protein synthesis machinery whose induction results in an overall increase in protein synthesis that empowers tumor cell growth. At present, it is largely unknown whether beyond the global enhancement of protein synthesis, Myc activation results in translation modulation of specific genes. Here, we measured Myc‐induced global changes in gene expression at the transcription, translation, and protein levels and uncovered extensive transcript‐specific regulation of protein translation. Particularly, we detected a broad coordination between regulation of transcription and translation upon modulation of Myc activity and showed the connection of these responses to mTOR signaling to enhance oncogenic transformation and to the TGFβ pathway to modulate cell migration and invasiveness. Our results elucidate novel facets of Myc‐induced cellular responses and provide a more comprehensive view of the consequences of its activation in cancer cells. KW - c‐Myc KW - transcriptional responses KW - translational regulation KW - transcription KW - transformation KW - metastasis KW - cancer KW - protein biosynthesis & quality control Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-150373 VL - 16 IS - 12 ER - TY - JOUR A1 - Herter, Eva K. A1 - Stauch, Maria A1 - Gallant, Maria A1 - Wolf, Elmar A1 - Raabe, Thomas A1 - Gallant, Peter T1 - snoRNAs are a novel class of biologically relevant Myc targets JF - BMC Biology N2 - Background Myc proteins are essential regulators of animal growth during normal development, and their deregulation is one of the main driving factors of human malignancies. They function as transcription factors that (in vertebrates) control many growth- and proliferation-associated genes, and in some contexts contribute to global gene regulation. Results We combine chromatin immunoprecipitation-sequencing (ChIPseq) and RNAseq approaches in Drosophila tissue culture cells to identify a core set of less than 500 Myc target genes, whose salient function resides in the control of ribosome biogenesis. Among these genes we find the non-coding snoRNA genes as a large novel class of Myc targets. All assayed snoRNAs are affected by Myc, and many of them are subject to direct transcriptional activation by Myc, both in Drosophila and in vertebrates. The loss of snoRNAs impairs growth during normal development, whereas their overexpression increases tumor mass in a model for neuronal tumors. Conclusions This work shows that Myc acts as a master regulator of snoRNP biogenesis. In addition, in combination with recent observations of snoRNA involvement in human cancer, it raises the possibility that Myc’s transforming effects are partially mediated by this class of non-coding transcripts. KW - Drosophila KW - ribosome KW - snoRNA KW - Myc Transcription KW - growth Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-124956 VL - 13 IS - 25 ER -