Young-Min Chung scite author profile

SUMMARY The cellular response to DNA double-strand breaks (DSBs) is mobilized by the protein kinase ATM, which phosphorylates key players in the DNA damage response (DDR) network. A major question is how ATM controls DSB repair. Optimal repair requires chromatin relaxation at damaged sites. Chromatin reorganization is coupled to dynamic alterations in histone posttranslational modifications. Here, we show that in human cells, DSBs induce monoubiquitylation of histone H2B, a modification that is associated in undamaged cells with transcription elongation. We find that this process relies on recruitment to DSB sites and ATM-dependent phosphorylation of the responsible E3 ubiquitin ligase: the RNF20-RNF40 heterodimer. H2B monoubiquitylation is required for timely recruitment of players in the two major DSB repair pathways—nonhomologous end-joining and homologous recombination repair—and optimal repair via both pathways. Our data and previous data suggest a two-stage model for chromatin decondensation that facilitates DSB repair.

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Functional interaction between FOXO3a and ATM regulates DNA damage response

Tsai

Chung

Takahashi³

et al. 2008

Nat Cell Biol

177

157

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The maintenance of genomic stability in cells is relentlessly challenged by environmental stresses that induce DNA breaks, which activate the DNA-damage pathway mediated by ataxia-telangiectasia mutated (ATM) and its downstream mediators to control damage-induced cell-cycle checkpoints and DNA repair. Here, we show that FOXO3a interacts with ATM to promote phosphorylation of ATM at Ser 1981 and prompting its downstream mediators to form nuclear foci in response to DNA damage. Silencing FOXO3a in cells abrogates the formation of ATM-pS1981 and phospho-histone H2AX foci after DNA damage. Increasing FOXO3a in cells promotes ATM-regulated signalling, the intra-S-phase or G2-M cell-cycle checkpoints, and the repair of damaged DNA, whereas cells lacking FOXO3a did not trigger the DNA-repair mechanism after DNA damage. The carboxy-terminal domain of FOXO3a binds to the FAT domain of ATM, thereby contributing to the activation of ATM. These results suggest that ATM may be regulated directly by FOXO3a in the DNA-damage response.

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Forkhead box transcription factor FOXO3a suppresses estrogen-dependent breast cancer cell proliferation and tumorigenesis

et al. 2008

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Introduction Estrogen receptors (ERs) play key roles in breast cancer development and influence treatment outcome in breast cancer patients. Identification of molecules that regulate ER function may facilitate development of breast cancer treatment strategies. The forkhead box class O (FOXO) transcription factor FOXO3a has been suggested to function as a tumor suppressor in breast cancer. Using protein-protein interaction screening, we found that FOXO3a interacted with ER-α and ER-β proteins in the human breast carcinoma cell line MCF-7, suggesting that there exists a crosstalk between the FOXO3a and ER signaling pathways in estrogen-dependent breast cancer cells.

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A novel protein, Romo1, induces ROS production in the mitochondria

Chung

Kim

Yoo

2006

Biochemical and Biophysical Research Communications

118

120

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Requirement of ATM-Dependent Monoubiquitylation of Histone H2B for Timely Repair of DNA Double-Strand Breaks

et al. 2011

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In the above article, we inadvertently provided the wrong catalog numbers for two monoclonal antibodies generated by Sigma Aldrich against the proteins RNF20 and RNF40. The correct catalog numbers are XYZ for the RNF20 antibody and ABC for the RNF40 antibody. The Supplemental Information file has been updated online and now includes these correct catalog numbers. We regret any inconvenience this may have caused.

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Young-Min Chung

Requirement of ATM-Dependent Monoubiquitylation of Histone H2B for Timely Repair of DNA Double-Strand Breaks

Functional interaction between FOXO3a and ATM regulates DNA damage response

Forkhead box transcription factor FOXO3a suppresses estrogen-dependent breast cancer cell proliferation and tumorigenesis

A novel protein, Romo1, induces ROS production in the mitochondria

Requirement of ATM-Dependent Monoubiquitylation of Histone H2B for Timely Repair of DNA Double-Strand Breaks

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