The joining of DNA single- and double-strand breaks (SSB and DSB) is essential for maintaining genome stability and integrity. While this is ultimately accomplished in human cells by the DNA ligases encoded by the LIG1, LIG3 and LIG4 genes, these enzymes are recruited to DNA breaks through specific interactions with proteins involved in break sensing and recognition and/or break processing. In this review, we focus on the interplay between the DNA break-activated poly (ADP-ribose) polymerases, PARP1 and PARP2, poly (ADP-ribose) (PAR) and the DNA ligases in DNA replication and repair. The most extensively studied example of this interplay is the recruitment of DNA ligase IIIα (LigIIIα) and other repair proteins to SSBs through an interaction between XRCC1, a scaffold protein and partner protein of nuclear LigIIIα, and PAR synthesized by PARP1 and to a lesser extent PARP2. Recently, these proteins have been implicated in a back-up pathway for joining Okazaki fragments that appears to have a critical function even in cells with no defect in the major LigI-dependent pathway. Finally, we discuss the effects of FDA-approved PARP1/2 inhibitors on DNA replication and repair in cancer and non-malignant cells and the potential utility of DNA ligase inhibitors as cancer therapeutics.
Keywords: DNA Repair inhibitors; DNA ligases; DNA repair; DNA replication; Poly (ADP-ribose) polymerases.
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