Ku is a 5'dRP/AP lyase that excises nucleotide damage near broken ends

Mammalian cells require Nonhomologous end joining (NHEJ) for efficient repair of chromosomal DNA double-strand breaks1. A key feature of biological sources of strand breaks is associated nucleotide damage, including base loss (abasic or AP sites)2. At single strand breaks, 5' terminal abasic sites are excised by pol β's 5'dRP lyase activity3,4,5,6: we show here in vitro and in cells that accurate and efficient repair by NHEJ of double-strand breaks with such damage similarly requires 5'dRP/AP lyase activity (Figure 1a). Classically defined NHEJ is moreover uniquely effective at coupling this end-cleaning step to joining in cells, helping distinguish this pathway from otherwise robust alternate NHEJ pathways. Surprisingly, the NHEJ factor Ku can be identified as an effective 5'dRP/AP lyase. Similar to other lyases7, Ku nicks DNA 3' of an abasic site by a mechanism involving a Schiff base covalent intermediate with the abasic site. We demonstrate using cell extracts that Ku is essential for efficient removal of AP sites near double-strand breaks and, consistent with this result, joining of such breaks is specifically reduced in cells complemented with a lyase-attenuated Ku mutant. Ku had previously been presumed only to recognize ends and recruit other factors that processed ends; our data supports an unexpected direct role for Ku in end processing steps as well.