Abstract
Recent studies have implicated a poorly defined alternative pathway of nonhomologous end joining (alt-NHEJ) in the generation of large deletions and chromosomal translocations that are frequently observed in cancer cells. Here, we describe an interaction between two factors, hMre11/hRad50/Nbs1 (MRN) and DNA ligase IIIα/XRCC1, that have been linked with alt-NHEJ. Expression of DNA ligase IIIα and the association between MRN and DNA ligase IIIα/XRCC1 are altered in cell lines defective in the major NHEJ pathway. Most notably, DNA damage induced the association of these factors in DNA ligase IV-deficient cells. MRN interacts with DNA ligase IIIα/XRCC1, stimulating intermolecular ligation, and together these proteins join incompatible DNA ends in a reaction that mimics alt-NHEJ. Thus, our results provide novel mechanistic insights into the alt-NHEJ pathway that not only contributes to genome instability in cancer cells but may also be a therapeutic target.
Highlights
Recent studies have implicated a poorly defined alternative pathway of nonhomologous end joining in the generation of large deletions and chromosomal translocations that are frequently observed in cancer cells
Alt-nonhomologous end joining (NHEJ) is more evident in cells that are deficient in classic NHEJ (C-NHEJ) [6, 7], it is detectable in wild-type cells [8]
Association of MRN and DNA Ligase III␣ in Normal and DNA Ligase IV-deficient Cells—Because alt-NHEJ is more evident in cells that are deficient in C-NHEJ [6, 7], we asked whether reduction of DNA ligase IV activity alters the behavior of two DNA repair factors, MRN and DNA ligase III␣/XRCC1, that have been implicated in alt-NHEJ
Summary
Recent studies have implicated a poorly defined alternative pathway of nonhomologous end joining (alt-NHEJ) in the generation of large deletions and chromosomal translocations that are frequently observed in cancer cells. MRN interacts with DNA ligase III␣/XRCC1, stimulating intermolecular ligation, and together these proteins join incompatible DNA ends in a reaction that mimics alt-NHEJ.
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