Authors
Katja Höpker, Henning Hagmann, Safiya Khurshid, Shuhua Chen, Pia Hasskamp, Tamina Seeger‐Nukpezah, Katharina Schilberg, Lukas Heukamp, Tobias Lamkemeyer, Martin L Sos, Roman K Thomas, Drew Lowery, Frederik Roels, Matthias Fischer, Max C Liebau, Ulrike Resch, Tülay Kisner, Fabian Röther, Malte P Bartram, Roman Ulrich Müller, Francesca Fabretti, Peter Kurschat, Björn Schumacher, Matthias Gaestel, René H Medema, Michael B Yaffe, Bernhard Schermer, H Christian Reinhardt, Thomas Benzing
Publication date
2012/10/17
Journal
The EMBO journal
Volume
31
Issue
20
Pages
3961-3975
Publisher
John Wiley & Sons, Ltd
Description
Following genotoxic stress, cells activate a complex signalling network to arrest the cell cycle and initiate DNA repair or apoptosis. The tumour suppressor p53 lies at the heart of this DNA damage response. However, it remains incompletely understood, which signalling molecules dictate the choice between these different cellular outcomes. Here, we identify the transcriptional regulator apoptosis‐antagonizing transcription factor (AATF)/Che‐1 as a critical regulator of the cellular outcome of the p53 response. Upon genotoxic stress, AATF is phosphorylated by the checkpoint kinase MK2. Phosphorylation results in the release of AATF from cytoplasmic MRLC3 and subsequent nuclear translocation where AATF binds to the PUMA, BAX and BAK promoter regions to repress p53‐driven expression of these pro‐apoptotic genes. In xenograft experiments, mice exhibit a dramatically enhanced response of AATF‐depleted …
Scholar articles
K Höpker, H Hagmann, S Khurshid, S Chen… - The EMBO journal, 2012
K Höpker, S Khurshid, H Hagmann, S Chen… - ONKOLOGIE, 2013