Activation of Fanconi Anemia Pathway in Cells with Re-Replicated DNA

To maintain genome stability, the cell has to limit initiation of DNA replication to once per cell cycle. Loss of this control leads to DNA re-replication with repeated firing of replication origins in the same cell cycle. Re-replication generates both ssDNA and double strand breaks, as well as activation of the DNA damage checkpoint. In re-replicated cells, activation of the checkpoint is critical to arrest cells in G2 resulting in accumulation of cells with re-replicated DNA. Abrogation of this checkpoint suppresses the progressive accumulation of cells with excess DNA and causes apoptosis. Recently, the Fanconi Anemia pathway was reported to be activated in re-replicating cells. Interestingly, FA core complexes but not FANCD2, is required for checkpoint activation in re-replicated cells, suggesting that the pathway to checkpoint activation requires the ubiquitination of substrates other than FANCD2. In addition, FANCD2 is required for recruitment of Rad51 to foci in re-replicated cells, so that the repair pathways activated after small degrees of re-replication are expected to be compromised in cells with mutations in the FA pathway.