Abstract
DNA damage response (DDR) is vital for genomic stability, and its deficiency is linked to tumorigenesis. Extensive studies in interphase (G(1)-S-G(2)) mammalian cells have revealed the mechanisms of DDR in great detail; however, how mitotic cells respond to DNA damage remains less defined. We report here that a full DDR is suppressed in mitotic mammalian cells until telophase/cytokinesis. Although early DDR markers such as the phosphorylations of ataxia telangiectasia mutated (ATM) and histone H2A.x (H2AX) can be readily detected, the ionizing radiation-induced foci (IRIF) formation of late DDR markers such as breast cancer type 1 susceptibility protein (BRCA1) and p53-binding protein 1 (53BP1) are absent until the telophase/cytokinesis stage. We further showed that the IR-induced ubiquitination cascade around DNA damage sites did not occur in mitotic cells, which explains, at least in part, why BRCA1 and 53BP1 cannot be recruited to the damaged sites. These observations indicate that DDR is suppressed in mitotic cells after the step of γH2AX formation. Not surprisingly, we found that the absence of a full DDR in mitotic cells was associated with the high cyclin-dependent kinase 1 (CDK1) activities. More 53BP1 IRIF could be detected when the irradiated mitotic cells were treated with a CDK1 inhibitor. Further, the activation of CDK5 in interphase cells impedes the formation of 53BP1 IRIF. Together, these results suggest that the DDR is suppressed by the high CDK1 activity in mitotic mammalian cells.
Highlights
To maintain genomic integrity, damaged DNA in a cell has to be repaired in a timely and efficient manner
We found that the absence of a full DNA damage response (DDR) in mitotic cells was associated with the high cyclin-dependent kinase 1 (CDK1) activities
double strand breaks (DSBs) are quickly detected by the Mre11-Rad50-NBS1 (MRN) complex and the subsequent retention of MRN complex at DSB sites is crucial for the activation and chromatin tethering of ataxia telangiectasia mutated (ATM) kinase
Summary
Despite a vast body of knowledge about DDR in interphase (G1-S-G2) cells, little is known about how mitotic cells deal with DNA damage. We previously showed that when nocodazole (NOC)-arrested (mitotic) HeLa cells were irradiated and released from the arrest, these cells proceeded through mitotic division until late telophase when they were blocked from finishing cytokinesis and became binucleated [17]. This observation leads to the suggestion that there exists a mitotic exit DNA damage checkpoint in mammalian cells which prevents the segregation of broken chromosome arms as demonstrated in yeasts (18 –22). We provide evidence suggesting that the high mitotic CDK1 activity may interfere with DNA damage response in early mitosis
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