Abstract
Cellular response to DNA damage involves the coordinated activation of cell cycle checkpoints and DNA repair. The early steps of DNA damage recognition and signaling in mammalian cells are not yet fully understood. To investigate the regulation of the DNA damage response (DDR), we designed short and stabilized double stranded DNA molecules (Dbait) mimicking double-strand breaks. We compared the response induced by these molecules to the response induced by ionizing radiation. We show that stable 32-bp long Dbait, induce pan-nuclear phosphorylation of DDR components such as H2AX, Rpa32, Chk1, Chk2, Nbs1 and p53 in various cell lines. However, individual cell analyses reveal that differences exist in the cellular responses to Dbait compared to irradiation. Responses to Dbait: (i) are dependent only on DNA-PK kinase activity and not on ATM, (ii) result in a phosphorylation signal lasting several days and (iii) are distributed in the treated population in an “all-or-none” pattern, in a Dbait-concentration threshold dependant manner. Moreover, despite extensive phosphorylation of the DNA-PK downstream targets, Dbait treated cells continue to proliferate without showing cell cycle delay or apoptosis. Dbait treatment prior to irradiation impaired foci formation of Nbs1, 53BP1 and Rad51 at DNA damage sites and inhibited non-homologous end joining as well as homologous recombination. Together, our results suggest that the hyperactivation of DNA-PK is insufficient for complete execution of the DDR but induces a “false” DNA damage signaling that disorganizes the DNA repair system.
Highlights
Ionizing radiation (IR) randomly causes damage to all cellular components and induces a large variety of DNA lesions [1,2]
DNA-PK activation by Dbait molecules We first screened for the smallest Dbait molecules that could be detected as double strand break (DSB) in a cell
Since binding of Ku proteins followed by DNA-PKcs recruitment and activation of its kinase activity are the earliest events in DSBs repair by NHEJ, we analyzed the minimal requirements to trigger these steps using various short DNA molecules mimicking DSBs (Dbait)
Summary
Ionizing radiation (IR) randomly causes damage to all cellular components and induces a large variety of DNA lesions [1,2]. Eukaryotic cells activate a signaling network that coordinates the rapid detection of DNA damage, cell cycle delay and DNA repair. A primary event in this DNA damage response (DDR) is the rapid phosphorylation of histone H2AX (c-H2AX) in the chromatin micro-environment surrounding a double strand break (DSB) by the phosphatidylinositol 3-kinase protein kinase-like (PIKK) family members ATM, ATR or DNA-PK [3,4]. CH2AX is not essential for the initial recognition of damage by signaling proteins, it seems to be indispensable for their sustained sequestration in the vicinity of DNA lesions [10]
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