XRCC4 and DNA Ligase IV (LIG4) cooperate to join two DNA ends at the final step of DNA double-strand break (DSB) repair through non-homologous end-joining (NHEJ). However, it is not fully understood how these proteins are localized to the nucleus. Here we created XRCC4(K271R) mutant, as Lys271 lies within the putative nuclear localization signal (NLS), and XRCC4(K210R) mutant, as Lys210 was reported to undergo SUMOylation, implicated in the nuclear localization of XRCC4. Wild-type and mutated XRCC4 with EGFP tag were introduced into HeLa cell, in which endogenous XRCC4 had been knocked down using siRNA directed to 3'-untranslated region, and tested for the nuclear localization function by fluorescence microscopy. XRCC4(K271R) was defective in the nuclear localization of itself and LIG4, whereas XRCC4(K210R) was competent for the nuclear localization with LIG4. To examine DSB repair function, wild-type and mutated XRCC4 were introduced into XRCC4-deficient Mb. M10-XRCC4(K271R), but not M10-XRCC4(K210R), showed significantly reduced surviving fraction after 2 Gy gamma-ray irradiation as compared to M10-XRCC4(WT). The number of gamma-H2AX foci remaining 2 h after 2 Gy gamma-ray irradiation was significantly greater in M10-XRCC4(K271R) than in M10-XRCC4(WT), whereas it was only marginally increased in M10-XRCC4(K210R) as compared to M10-XRCC4(WT). The present results collectively indicated that Lys271, but not Lys210, of XRCC4 is required for the nuclear localization of XRCC4 and LIG4 and that the nuclear localizing ability is essential for DSB repair function of XRCC4. (C) 2015 Elsevier Inc. All rights reserved.