ALBERT

Description: Publication date: Available online 3 October 2013 Source: Cell Reports Author(s): Anastazja Grabarz , Josée Guirouilh-Barbat , Aurélia Barascu , Gaëlle Pennarun , Diane Genet , Emilie Rass , Susanne M. Germann , Pascale Bertrand , Ian D. Hickson , Bernard S. Lopez The choice of the appropriate double-strand break (DSB) repair pathway is essential for the maintenance of genomic stability. Here, we show that the Bloom syndrome gene product, BLM, counteracts CtIP/MRE11-dependent long-range deletions (>200 bp) generated by alternative end-joining (A-EJ). BLM represses A-EJ in an epistatic manner with 53BP1 and RIF1 and is required for ionizing-radiation-induced 53BP1 focus assembly. Conversely, in the absence of 53BP1 or RIF1, BLM promotes formation of A-EJ long deletions, consistent with a role for BLM in DSB end resection. These data highlight a dual role for BLM that influences the DSB repair pathway choi (1) protection against CtIP/MRE11 long-range deletions associated with A-EJ and (2) promotion of DNA resection. These antagonist roles can be regulated, according to cell-cycle stage, by interacting partners such as 53BP1 and TopIII, to avoid unscheduled resection that might jeopardize genome integrity. Graphical abstract Teaser The choice of the appropriate double-strand break (DSB) repair pathway is essential for the maintenance of genomic stability. Here, Lopez and colleagues show a dual role for the Bloom syndrome gene product, BLM, that influences the DSB repair pathway choice in two ways: (1) protection against long-range deletions associated with DSB end-joining and (2) promotion of DNA resection. These antagonistic roles can be regulated, according to cell-cycle stage, by interacting partners, to avoid unscheduled resection that might jeopardize genome integrity.