Abstract
The XRCC4 gene is required for the repair of DNA double-strand breaks in mammalian cells. Without XRCC4, cells are hypersensitive to ionizing radiation and deficient for V(D)J recombination. It has been demonstrated that XRCC4 binds and stimulates DNA ligase IV, which has led to the hypothesis that DNA ligase IV is essential for both of these processes. In this study deletion mutants of XRCC4 were tested for their ability to associate with DNA ligase IV in vitro and for their ability to reconstitute XRCC4-deficient cells in vivo. We find that a central region of XRCC4 from amino acids 100-250 is necessary for DNA ligase IV binding and that deletions within this region functionally inactivates XRCC4. Deletions within the C-terminal 84 amino acids neither affect DNA ligase IV binding nor the in vivo function of XRCC4. The correlation between the ability or inability of XRCC4 to bind DNA ligase IV and its ability or failure to reconstitute wild-type DNA repair in vivo, respectively, demonstrates for the first time that the physical interaction with DNA ligase IV is crucial for the in vivo function of XRCC4. Deletions within the N-terminal 100 amino acids inactivate XRCC4 in vivo but leave DNA ligase IV binding unaffected. This indicates further DNA ligase IV-independent functions of XRCC4.
Highlights
Cells have developed mechanisms for the repair of chromosomal DNA breaks that can be generated either randomly or site- during V(D)J recombination
XRCC4 deletion mutant ⌬5 contained a 100-amino acid deletion instead of the regular 50or 34-amino acid deletions, because primers that would be required to generate a 50-amino acid XRCC4 deletion mutant spanning the gap between deletion mutants ⌬4 and ⌬6 repeatedly did not result in detectable PCR products
This has led to the hypothesis that DNA ligase IV is involved in nonhomologous DNA end-joining in mammalian cells
Summary
Cells have developed mechanisms for the repair of chromosomal DNA breaks that can be generated either randomly (e.g. by ionizing radiation) or site- during V(D)J recombination. The second pathway, nonhomologous DNA end-joining (NHEJ), allows cells to directly religate a broken chromosome The latter mechanism is an integral part of the DNA endjoining phase in V(D)J recombination, the mechanism that assembles coding regions for the variable domains of immuno-. This is evidenced by a variety of mutations resulting in increased x-ray sensitivity as well as a defect in V(D)J recombination. The cDNA for another factor, XRCC4, with a dual role in DNA double-strand break repair and V(D)J recombination has recently been cloned [16] This cDNA is able to complement the DNA repair defect in the Chinese hamster ovary cell line XR-1 carrying a deletion of the XRCC4 gene. The biochemical function of the putative XRCC4 protein remained initially unknown, since it did not display significant homology to any other known protein
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