DNA damage-induced G2–M checkpoint activation by histone H2AX and 53BP1
Copyright policy )DNA damage-induced G2–M checkpoint activation by histone H2AX and 53BP1
Activation of the ataxia telangiectasia mutated (ATM) kinase triggers diverse cellular responses to ionizing radiation (IR), including the initiation of cell cycle checkpoints. Histone H2AX, p53 binding-protein 1 (53BP1) and Chk2 are targets of ATM-mediated phosphorylation, but little is known about their roles in signalling the presence of DNA damage. Here, we show that mice lacking either H2AX or 53BP1, but not Chk2, manifest a G2-M checkpoint defect close to that observed in ATM(-/-) cells after exposure to low, but not high, doses of IR. Moreover, H2AX regulates the ability of 53BP1 to efficiently accumulate into IR-induced foci. We propose that at threshold levels of DNA damage, H2AX-mediated concentration of 53BP1 at double-strand breaks is essential for the amplification of signals that might otherwise be insufficient to prevent entry of damaged cells into mitosis.
- National Institutes of Health United States
- National Cancer Institute United States
- The University of Texas Health Science Center at Houston United States
- Mayo Clinic United States
- National Center for Geriatrics and Gerontology Japan
G2 Phase, Chromosomal Proteins, Non-Histone, Intracellular Signaling Peptides and Proteins, Mitosis, Protein Serine-Threonine Kinases, Phosphoproteins, Cell Line, DNA-Binding Proteins, Histones, Checkpoint Kinase 2, Mice, Gene Expression Regulation, Animals, Phosphorylation, Carrier Proteins, Tumor Suppressor p53-Binding Protein 1, Protein Kinases, DNA Damage
G2 Phase, Chromosomal Proteins, Non-Histone, Intracellular Signaling Peptides and Proteins, Mitosis, Protein Serine-Threonine Kinases, Phosphoproteins, Cell Line, DNA-Binding Proteins, Histones, Checkpoint Kinase 2, Mice, Gene Expression Regulation, Animals, Phosphorylation, Carrier Proteins, Tumor Suppressor p53-Binding Protein 1, Protein Kinases, DNA Damage
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