Three-dimensional imaging reveals the spatial separation of γH2AX–MDC1–53BP1 and RNF8–RNF168–BRCA1-A complexes at ionizing radiation-induced foci

Background and purposeIonizing radiation (IR)-induced DNA damage causes the accumulation of DNA damage response (DDR) proteins as visible foci in cell nuclei. Despite the identified functional roles in DNA repair, the spatial relationships of different DDR proteins at foci have not been explicitly examined. This study aims to systematically compare the distribution of DDR proteins at IR-induced foci.Materials and methodsMCF-7 cells were treated with IR, stained for γH2AX, MDC1, RNF8, RNF168, 53BP1, Abraxas (CCDC98), BRCA1, BRCC36, Merit40 (NBA1) and RAP80, and then imaged using high-resolution three-dimensional (3-D) confocal microscopy to assess the relative localization of proteins at foci.ResultsAll BRCA1-A complex components displayed strong co-localization, which overlapped significantly with RNF8 and RNF168, but not with γH2AX and MDC1. Intriguingly, 53BP1 co-located well with γH2AX and MDC1, but remained separate from RNF8 and RNF168. These co-localization patterns were consistent for at least 3 h after IR.ConclusionsThe foci formations of γH2AX–MDC1–53BP1 and RNF8–RNF168–BRCA1-A complexes are spatially independent. Such divergence was not anticipated from prior studies on the recruitment of these proteins to foci. This information indicates that individual foci may represent distinct sites of DNA repair facilitated by a specific subset of DDR proteins.