Michael Wanzel scite author profile

The MYC proto-oncogene encodes a transcription factor that has been implicated in the genesis of many human tumours. Here, we used a bar-code short hairpin RNA (shRNA) screen to identify multiple genes that are required for MYC function. One of these genes encodes USP28, an ubiquitin-specific protease. USP28 is required for MYC stability in human tumour cells. USP28 binds to MYC through an interaction with FBW7alpha, an F-box protein that is part of an SCF-type ubiquitin ligase. Therefore, it stabilizes MYC in the nucleus, but not in the nucleolus, where MYC is degraded by FBW7gamma. High expression levels of USP28 are found in colon and breast carcinomas, and stabilization of MYC by USP28 is essential for tumour-cell proliferation.

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Negative Regulation of the Mammalian UV Response by Myc through Association with Miz-1

Herold¹,

Wanzel²,

Beuger³

et al. 2002

Molecular Cell

276

290

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The Myc oncoprotein represses initiator-dependent transcription through the POZ domain transcription factor Miz-1. We now show that transactivation by Miz-1 is negatively regulated by association with topoisomerase II binding protein (TopBP1); UV irradiation downregulates expression of TopBP1 and releases Miz-1. Miz-1 binds to the p21Cip1 core promoter in vivo and is required for upregulation of p21Cip1 upon UV irradiation. Using both c-myc(-/-) cells and a point mutant of Myc that is deficient in Miz-1 dependent repression, we show that Myc negatively regulates transcription of p21Cip1 upon UV irradiation and facilitates recovery from UV-induced cell cycle arrest through binding to Miz-1. Our data implicate Miz-1 in a pathway that regulates cell proliferation in response to UV irradiation.

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Compassionate use of sorafenib in FLT3-ITD–positive acute myeloid leukemia: sustained regression before and after allogeneic stem cell transplantation

et al. 2009

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Transcriptional repression by Myc

Wanzel

Herold

Eilers

2003

Trends in Cell Biology

184

150

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p53 DNA Binding Cooperativity Is Essential for Apoptosis and Tumor Suppression In Vivo

et al. 2013

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Four molecules of the tumor suppressor p53 assemble to cooperatively bind proapoptotic target genes. The structural basis for cooperativity consists of interactions between adjacent DNA binding domains. Mutations at the interaction interface that compromise cooperativity were identified in cancer patients, suggesting a requirement of cooperativity for tumor suppression. We report on an analysis of cooperativity mutant p53E177R mice. Apoptotic functions of p53 triggered by DNA damage and oncogenes were abolished in these mice, whereas functions in cell-cycle control, senescence, metabolism, and antioxidant defense were retained and were sufficient to suppress development of spontaneous T cell lymphoma. Cooperativity mutant mice are nevertheless highly cancer prone and susceptible to different oncogene-induced tumors. Our data underscore the relevance of DNA binding cooperativity for p53-dependent apoptosis and tumor suppression and highlight cooperativity mutations as a class of p53 mutations that result in a selective loss of apoptotic functions due to an altered quaternary structure of the p53 tetramer.

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Michael Wanzel

The ubiquitin-specific protease USP28 is required for MYC stability

Negative Regulation of the Mammalian UV Response by Myc through Association with Miz-1

Compassionate use of sorafenib in FLT3-ITD–positive acute myeloid leukemia: sustained regression before and after allogeneic stem cell transplantation

Transcriptional repression by Myc

p53 DNA Binding Cooperativity Is Essential for Apoptosis and Tumor Suppression In Vivo

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