Phosphorylation of DNA-PKcs at the S2056 cluster ensures efficient and productive lymphocyte development in XLF-deficient mice.

The nonhomologous end-joining (NHEJ) pathway is a major DNA double-strand break repair pathway in mammals and is essential for lymphocyte development. Ku70 and Ku80 heterodimer (KU) initiates NHEJ, thereby recruiting and activating the catalytic subunit of DNA-dependent protein kinase (DNA-PKcs). While DNA-PKcs deletion only moderately impairs end-ligation, the expression of kinase-dead DNA-PKcs completely abrogates NHEJ. Active DNA-PK phosphorylates DNA-PKcs at two clusters--PQR around S2056 (S2053 in mouse) and ABCDE around T2609. Alanine substitution at the S2056 cluster moderately compromises end-ligation on plasmid-based assays. But, mice carrying alanine substitution at all five serine residues within the S2056 cluster (DNA-PKcs^PQR/PQR) display no defect in lymphocyte development, leaving the physiological significance of S2056 cluster phosphorylation elusive. Xlf is a nonessential NHEJ factor. Xlf^-/- mice have substantial peripheral lymphocytes that are completely abolished by the loss of DNA-PKcs, the related ATM kinases, other chromatin-associated DNA damage response factors (e.g., 53BP1, MDC1, H2AX, and MRI), or RAG2-C-terminal regions, suggesting functional redundancy. While ATM inhibition does not further compromise end-ligation, here we show that in XLF-deficient background, DNA-PKcs S2056 cluster phosphorylation is critical for normal lymphocyte development. Chromosomal V(D)J recombination from DNA-PKcs^PQR/PQR Xlf^-/- B cells is efficient but often has large deletions that jeopardize lymphocyte development. Class-switch recombination junctions from DNA-PKcs^PQR/PQR Xlf^-/- mice are less efficient and the residual junctions display decreased fidelity and increased deletion. These findings establish a role for DNA-PKcs S2056 cluster phosphorylation in physiological chromosomal NHEJ, implying that S2056 cluster phosphorylation contributes to the synergy between XLF and DNA-PKcs in end-ligation. [ABSTRACT FROM AUTHOR]