The c-Myc proto-oncogene encodes a transcription factor that is essential for cell growth and proliferation and is broadly implicated in tumorigenesis. However, the biological functions required by c-Myc to induce oncogenesis remain elusive. Here we show that c-Myc has a direct role in the control of DNA replication. c-Myc interacts with the pre-replicative complex and localizes to early sites of DNA synthesis. Depletion of c-Myc from mammalian (human and mouse) cells as well as from Xenopus cell-free extracts, which are devoid of RNA transcription, demonstrates a non-transcriptional role for c-Myc in the initiation of DNA replication. Overexpression of c-Myc causes increased replication origin activity with subsequent DNA damage and checkpoint activation. These findings identify a critical function of c-Myc in DNA replication and suggest a novel mechanism for its normal and oncogenic functions.
Upon antigenic challenge, B cells enter the dark-zone (DZ) of germinal-centers (GC) to proliferate and hypermutate their immunoglobulin genes. Mutants with increased affinity are positively selected in the light-zone (LZ) to either differentiate into plasma and memory cells, or re-enter the DZ. The molecular circuits governing GC positive selection are not known. We show that the GC reaction requires the biphasic regulation of c-MYC expression, involving its transient induction during early GC commitment, its repression by BCL6 in DZ B cells, and its re-induction in B cells selected for DZ re-entry. Inhibition of MYC in vivo leads to GC collapse, indicating an essential role in GCs. These results have implications for the mechanism of GC selection and the role of MYC in lymphomagenesis.
The MEF2B gene encodes a transcriptional activator and is found mutated in ∼11% of diffuse large B cell lymphomas (DLBCLs) and ∼12% of follicular lymphomas. Here, we show that MEF2B directly activates the transcription of the proto-oncogene BCL6 in normal germinal-center B cells and is required for DLBCL proliferation. MEF2B mutations enhance MEF2B transcriptional activity either by disrupting its interaction with the co-repressor CABIN1, or by rendering it insensitive to phosphorylation- and sumoylation-mediated inhibitory signaling events. Consequently, Bcl-6 transcriptional activity is deregulated in DLBCL harboring MEF2B mutations. Thus, somatic mutations of MEF2B may contribute to lymphomagenesis by deregulating the expression of the BCL6 oncogene, and MEF2B may represent an alternative target to block Bcl-6 activity in DLBCLs.
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