Abstract

The maintenance of genomic integrity following DMA damage depends on the coordination of the cell cycle checkpoint controls and DNA repair. Increasing evidence suggests that the integrity of the DMA damage- signaling pathway is essential for the prevention of neoplastic transformation, since many proteins involved in this pathway are frequently mutated in human cancers. Thus, a better understanding the DNA damage-signaling pathway will help us elucidate the pathway that is critical for the maintenance of genomic integrity and for the prevention of tumorigenesis. 53BP1 (p53-binding protein 1) was first identified in a yeast two-hybrid screen as a protein that interacts with the central DMA-binding domain of p53. In the last few years, we and others have demonstrated that 53BP1 is involved early in DNA damage-signaling pathway and plays a critical role in DNA damage checkpoint control and DNA repair. Moreover, we have shown that loss of 53BP1 greatly facilitates tumorigenesis in vivo, supporting that proper DNA damage responses are essential for the maintenance of genomic stability and cancer prevention. However, the mechanisms by which 53BP1 operates and the complexity of the DNA damage responses have not yet been adequately addressed. In this proposal, we will study the multiple functional motifs in 53BP1 in Specific Aim 1. The goal here is to elucidate how 53BP1 acts as a DNA damage mediator through its interactions with various upstream and downstream protein components involved in DNA damage pathways.
In Specific Aim 2, we will explore the potential redundant functions between 53BP1 and another mediator of DNA damage checkpoint MDC1. 53BP1 rapidly relocalizes to the sites of DNA breaks. Recent studies suggest that a protein methyltransferase Dot1-dependent Lys-79 methylation of histone H3 is required for this initial recruitment of 53BP1.
In Specific Aim 3, we will generate Dot1 knockout mice and explore the role of Dot1 and Dot1 -dependent H3 methylation in the regulation of DNA damage responses including 53BP1 localization. Collectively, these genetic, structural and biochemical analyses of 53BP1 protein will reveal, at molecular details, how 53BP1 participates in DNA damage responses and contributes to tumor suppression. ? ? ?

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
2R01CA100109-04
Application #
7091285
Study Section
Radiation Therapeutics and Biology Study Section (RTB)
Program Officer
Pelroy, Richard
Project Start
2003-05-09
Project End
2006-09-30
Budget Start
2006-05-01
Budget End
2006-09-30
Support Year
4
Fiscal Year
2006
Total Cost
$63,084
Indirect Cost

  Institution

Name
Mayo Clinic, Rochester
Department
Type
DUNS #
006471700
City
Rochester
State
MN
Country
United States
Zip Code
55905

  Publications

Zhang, Aili; Peng, Bo; Huang, Ping et al. (2017) The p53-binding protein 1-Tudor-interacting repair regulator complex participates in the DNA damage response. J Biol Chem 292:6461-6467
Lee, Yuan-Cho; Zhou, Qing; Chen, Junjie et al. (2016) RPA-Binding Protein ETAA1 Is an ATR Activator Involved in DNA Replication Stress Response. Curr Biol 26:3257-3268
Wang, Wenqi; Li, Nan; Li, Xu et al. (2015) Tankyrase Inhibitors Target YAP by Stabilizing Angiomotin Family Proteins. Cell Rep 13:524-532
Li, Yujing; Fong, Ka-Wing; Tang, Mengfan et al. (2014) Fam118B, a newly identified component of Cajal bodies, is required for Cajal body formation, snRNP biogenesis and cell viability. J Cell Sci 127:2029-39
Wang, Jiadong; Aroumougame, Asaithamby; Lobrich, Markus et al. (2014) PTIP associates with Artemis to dictate DNA repair pathway choice. Genes Dev 28:2693-8
Yuan, Jingsong; Chen, Junjie (2013) FIGNL1-containing protein complex is required for efficient homologous recombination repair. Proc Natl Acad Sci U S A 110:10640-5
Wang, Jiadong; Leung, Justin Wai-chung; Gong, Zihua et al. (2013) PHF6 regulates cell cycle progression by suppressing ribosomal RNA synthesis. J Biol Chem 288:3174-83
Ghosal, Gargi; Chen, Junjie (2013) DNA damage tolerance: a double-edged sword guarding the genome. Transl Cancer Res 2:107-129
Feng, Lin; Fong, Ka-Wing; Wang, Jiadong et al. (2013) RIF1 counteracts BRCA1-mediated end resection during DNA repair. J Biol Chem 288:11135-43
Yuan, Jingsong; Ghosal, Gargi; Chen, Junjie (2012) The HARP-like domain-containing protein AH2/ZRANB3 binds to PCNA and participates in cellular response to replication stress. Mol Cell 47:410-21

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