E2F3 Is a Mediator of DNA Damage-Induced Apoptosis
Copyright policy )E2F3 Is a Mediator of DNA Damage-Induced Apoptosis
The E2F transcription factors have emerged as critical apoptotic effectors. Herein we report that the E2F family member E2F3a can be induced by DNA damage through transcriptional and posttranslational mechanisms. We demonstrate that the posttranslational induction of human E2F3a is dependent on the checkpoint kinases. Moreover, we show that human E2F3a is a substrate for the checkpoint kinases (chk kinases) and that mutation of the chk phosphorylation site eliminates the DNA damage inducibility of the protein. Furthermore, we demonstrate that E2F1 and E2F2 are transcriptionally induced by DNA damage in an E2f3-dependent manner. Finally, using both in vitro and in vivo approaches, we establish that E2f3 is required for DNA damage-induced apoptosis. Thus, our data reveal the novel ability of E2f3 to function as a master regulator of the DNA damage response.
- The University of Texas MD Anderson Cancer Center United States
- University of Mississippi Medical Center United States
- The Ohio State University United States
- The Ohio State University at Marion United States
- Biomolécules : Conception, Isolement, Synthèse France
Central Nervous System, E2F5 Transcription Factor, Antibiotics, Antineoplastic, Apoptosis, E2F4 Transcription Factor, Antineoplastic Agents, Phytogenic, Cell Line, Mice, E2F2 Transcription Factor, Doxorubicin, E2F3 Transcription Factor, Cell Line, Tumor, Checkpoint Kinase 1, Animals, Humans, Phosphorylation, Protein Kinases, E2F1 Transcription Factor, DNA Damage, Etoposide
Central Nervous System, E2F5 Transcription Factor, Antibiotics, Antineoplastic, Apoptosis, E2F4 Transcription Factor, Antineoplastic Agents, Phytogenic, Cell Line, Mice, E2F2 Transcription Factor, Doxorubicin, E2F3 Transcription Factor, Cell Line, Tumor, Checkpoint Kinase 1, Animals, Humans, Phosphorylation, Protein Kinases, E2F1 Transcription Factor, DNA Damage, Etoposide
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