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The Journal of neuroscience : the official journal of the Society for Neuroscience v.37 no.4, 2017년, pp.893 - 905   SCI SCIE
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DNA-PKcs, ATM, and ATR Interplay Maintains Genome Integrity during Neurogenesis

Enriquez-Rios, Vanessa (Department of Genetics, St Jude Children's Research Hospital, Memphis, Tennessee 38105, ) ; Dumitrache, Lavinia C. (Department of Genetics, St Jude Children's Research Hospital, Memphis, Tennessee 38105, ) ; Downing, Susanna M. (Department of Genetics, St Jude Children's Research Hospital, Memphis, Tennessee 38105, ) ; Li, Yang (Department of Genetics, St Jude Children's Research Hospital, Memphis, Tennessee 38105, ) ; Brown, Eric J. (Abramson Family Cancer Research Institute and the Department of Cancer Biology, Perelman School of Medicine, University of Pennsylvania, Philadelphia, Pennsylvania 19104 ) ; Russell, Helen R. (Department of Genetics, St Jude Children's Research Hospital, Memphis, Tennessee 38105, ) ; McKinnon, Peter J. (Department of Genetics, St Jude Children's Research Hospital, Memphis, Tennessee 38105, ) ;
  • 초록  

    The DNA damage response (DDR) orchestrates a network of cellular processes that integrates cell-cycle control and DNA repair or apoptosis, which serves to maintain genome stability. DNA-PKcs (the catalytic subunit of the DNA-dependent kinase, encoded by PRKDC ), ATM (ataxia telangiectasia, mutated), and ATR (ATM and Rad3-related) are related PI3K-like protein kinases and central regulators of the DDR. Defects in these kinases have been linked to neurodegenerative or neurodevelopmental syndromes. In all cases, the key neuroprotective function of these kinases is uncertain. It also remains unclear how interactions between the three DNA damage-responsive kinases coordinate genome stability, particularly in a physiological context. Here, we used a genetic approach to identify the neural function of DNA-PKcs and the interplay between ATM and ATR during neurogenesis. We found that DNA-PKcs loss in the mouse sensitized neuronal progenitors to apoptosis after ionizing radiation because of excessive DNA damage. DNA-PKcs was also required to prevent endogenous DNA damage accumulation throughout the adult brain. In contrast, ATR coordinated the DDR during neurogenesis to direct apoptosis in cycling neural progenitors, whereas ATM regulated apoptosis in both proliferative and noncycling cells. We also found that ATR controls a DNA damage-induced G 2 /M checkpoint in cortical progenitors, independent of ATM and DNA-PKcs. These nonoverlapping roles were further confirmed via sustained murine embryonic or cortical development after all three kinases were simultaneously inactivated. Thus, our results illustrate how DNA-PKcs, ATM, and ATR have unique and essential roles during the DDR, collectively ensuring comprehensive genome maintenance in the nervous system. SIGNIFICANCE STATEMENT The DNA damage response (DDR) is essential for prevention of a broad spectrum of different human neurologic diseases. However, a detailed understanding of the DDR at a physiological level is lacking. In contrast to many in vitro cellular studies, here we demonstrate independent biological roles for the DDR kinases DNA-PKcs, ATM, and ATR during neurogenesis. We show that DNA-PKcs is central to DNA repair in nonproliferating cells, and restricts DNA damage accumulation, whereas ATR controls damage-induced G 2 checkpoint control and apoptosis in proliferating cells. Conversely, ATM is critical for controlling apoptosis in immature noncycling neural cells after DNA damage. These data demonstrate functionally distinct, but cooperative, roles for each kinase in preserving genome stability in the nervous system.


  • 주제어

    ATM .   ATR .   DNA damage .   DNA-Pkcs .   genome stability .   neurogenesis.  

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