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Authors: Adva Levy-Barda, Yaniv Lerenthal, Anthony J. Davis, Young Min Chung, Jeroen Essers, Zhengping Shao, Nicole van Vliet, David J. Chen, Mickey C-T. Hu, Roland Kanaar, Yael Ziv and Yosef Shiloh

Adva Levy-Barda

The David and Inez Myers Laboratory for Cancer Genetics; Department of Human Molecular Genetics and Biochemistry; Sackler School of Medicine; Tel Aviv University; Tel Aviv, Israel

Yaniv Lerenthal

The David and Inez Myers Laboratory for Cancer Genetics; Department of Human Molecular Genetics and Biochemistry; Sackler School of Medicine; Tel Aviv University; Tel Aviv, Israel

Anthony J. Davis

Division of Molecular Radiation Biology; Department of Radiation Oncology; University of Texas Southwestern Medical Center; Dallas, TX, USA

Young Min Chung

Stanford University School of Medicine; Division of Gynecologic Oncology; Stanford, CA USA

Jeroen Essers

Department of Cell Biology & Genetics; Cancer Genomics Center; Department of Radiation Oncology; Rotterdam, The Netherlands

Zhengping Shao

Division of Molecular Radiation Biology; Department of Radiation Oncology; University of Texas Southwestern Medical Center; Dallas, TX, USA

Nicole van Vliet

Department of Cell Biology & Genetics; Cancer Genomics Center; Department of Radiation Oncology; Rotterdam, The Netherlands

David J. Chen

Department of Cell Biology & Genetics; Cancer Genomics Center; Department of Radiation Oncology; Rotterdam, The Netherlands

Mickey C-T. Hu

Stanford University School of Medicine; Division of Gynecologic Oncology; Stanford, CA USA

Roland Kanaar

Department of Cell Biology & Genetics; Cancer Genomics Center; Department of Radiation Oncology; Rotterdam, The Netherlands

Yael Ziv

Corresponding author: yaelz@post.tau.ac.il
The David and Inez Myers Laboratory for Cancer Genetics; Department of Human Molecular Genetics and Biochemistry; Sackler School of Medicine; Tel Aviv University; Tel Aviv, Israel

Yosef Shiloh

Corresponding author: yossih@post.tau.ac.il
The David and Inez Myers Laboratory for Cancer Genetics; Department of Human Molecular Genetics and Biochemistry; Sackler School of Medicine; Tel Aviv University; Tel Aviv, Israel

Abstract:
The DNA damage response (DDR) is a complex signaling network that leads to damage repair while modulating numerous cellular processes. DNA double-strand breaks (DSBs)—a highly cytotoxic DNA lesion—activate this system most vigorously. The DSB response network is orchestrated by the ATM protein kinase, which phosphorylates key players in its various branches. Proteasome-mediated protein degradation plays an important role in the proteome dynamics following DNA damage induction. Here, we identify the nuclear proteasome activator PA28γ (REGγ; PSME3) as a novel DDR player. PA28γ depletion leads to cellular radiomimetic sensitivity and a marked delay in DSB repair. Specifically, PA28γ deficiency abrogates the balance between the two major DSB repair pathways—nonhomologous end-joining and homologous recombination repair. Furthermore, PA28γ is found to be an ATM target, being recruited to the DNA damage sites and required for rapid accumulation of proteasomes at these sites. Our data reveal a novel ATM-PA28γ-proteasome axis of the DDR that is required for timely coordination of DSB repair.

Received: November 3, 2011; Accepted: November 3, 2011

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