Abstract:
:DNA interstrand crosslinks (ICLs) are highly toxic lesions that covalently link both strands of DNA and distort the DNA helix. Crosslinking agents have been shown to stall DNA replication and failure to repair ICL lesions before encountered by replication forks may induce severe DNA damage. Most knowledge of the ICL repair process has been revealed from studies in bacteria and cell extracts. However, for mammalian cells the process of ICL repair is still unclear and conflicting data exist. In this study we have explored the fate of psoralen-induced ICLs during replication, by employing intact mammalian cells and novel techniques. By comparative studies distinguishing between effects by monoadducts versus ICLs, we have been able to link the block of replication to the ICLs induction. We found that the replication fork was equally blocked by ICLs in wild-type cells as in cells deficient in ERCC1/XPF and XRCC3. The formation of ICL induced double strand breaks (DSBs), detected by formation of 53PB1 foci, was equally induced in the three cell lines suggesting that these proteins are involved at a later step of the repair process. Furthermore, we found that forks blocked by ICLs were neither bypassed, restarted nor restored for several hours. We propose that this process is different from that taking place following monoadduct induction by UV-light treatment where replication bypass is taking place as an early step. Altogether our findings suggest that restoration of an ICL blocked replication fork, likely initiated by a DSB occurs relatively rapidly at a stalled fork, is followed by restoration, which seems to be a rather slow process in intact mammalian cells.
journal_name
DNA Repair (Amst)journal_title
DNA repairauthors
Vare D,Groth P,Carlsson R,Johansson F,Erixon K,Jenssen Ddoi
10.1016/j.dnarep.2012.09.010subject
Has Abstractpub_date
2012-12-01 00:00:00pages
976-85issue
12eissn
1568-7864issn
1568-7856pii
S1568-7864(12)00214-5journal_volume
11pub_type
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