Dual Functions of Nbs1 in the Repair of DNA Breaks and Proliferation Ensure Proper V(D)J Recombination and T-Cell Development

Abstract

ABSTRACT Immunodeficiency and lymphoid malignancy are hallmarks of the human disease Nijmegen breakage syndrome (NBS; OMIM 251260), which is caused by NBS1 mutations. Although NBS1 has been shown to bind to the T-cell receptor alpha (TCRα) locus, its role in TCRβ rearrangement is unclear. Hypomorphic mutations of Nbs1 in mice and patients result in relatively mild T-cell deficiencies, raising the question of whether the truncated Nbs1 protein might have clouded a certain function of NBS1 in T-cell development. Here we show that the deletion of the entire Nbs1 protein in T-cell precursors ( Nbs1 T-del ) results in severe lymphopenia and a hindrance to the double-negative 3 (DN3)-to-DN4 transition in early T-cell development, due to abnormal TCRβ coding and signal joints as well as the functions of Nbs1 in T-cell expansion. Chromatin immunoprecipitation (ChIP) analysis of the TCR loci reveals that Nbs1 depletion compromises the loading of Mre11/Rad50 to V(D)J-generated DNA double-strand breaks (DSBs) and thereby affects resection of DNA termini and chromatin conformation of the postcleavage complex. Although a p53 deficiency relieves the DN3→DN4 transition block, neither a p53 deficiency nor ectopic expression of TCRαβ rescues the major T-cell loss in Nbs1 T-del mice. All together, these results demonstrate that Nbs1's functions in both repair of V(D)J-generated DSBs and proliferation are essential for T-cell development.