Abstract
The BLM helicase, a deficiency in which markedly increases cancer incidence in humans, isrequired for optimal repair during DNA replication. We show that BLM rapidly moves fromPML nuclear bodies to damaged replication forks, returning to PML bodies several hours later,owing to activities of the DNA damage response kinases ATR and ATM, respectively.Immunofluorescence and cellular fractionation demonstrate that BLM partitions to different subcellularcompartments after replication stress. Unexpectedly, fibroblasts lacking BLM weredeficient in phospho-ATM (S-1981) and 53-binding protein-1 (53BP1), and these proteins failedto form foci following replication stress. Expression of a dominant p53 mutant or helicasedeficientBLM restored replication stress-induced 53BP1 foci, but only mutant p53 restoredoptimal ATM activation. Thus, optimal repair of damaged replication fork lesions likelyrequires both ATR and ATM, BLM recruits 53BP1 to these lesions independent of its helicaseactivity, and optimal activation of ATM requires both p53 and BLM helicase activities.
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http://www.landesbioscience.com/journals/cc/davalosCC3-12-sup.pdf