Recruitment of proteins to DNA double-strand breaks: MDC1 directly recruits RAP80.

DNA double-strand breaks (DSBs) are the most severe type of DNA damage. Occurrence of DSBs in the cell activates the DNA damage response (DDR), which involves signaling cascades that sense and respond to the damage. Promptly after DSB induction, DDR proteins accumulate surrounding both DNA ends and form microscopically-visible foci. Recently, we demonstrated that the key DDR protein MDC1 directly binds RAP80, an additional DDR protein that recruits BRCA1 to DSBs. We provided evidences that the MDC1-RAP80 interaction depends on a ubiquitylation event on K-1977 of MDC1. However, it remained unknown whether K-1977 of MDC1 is required for the recruitment of RAP80 to DSBs. Here we show that K-1977 of MDC1 is necessary for focus formation by RAP80. Nevertheless, it has not effect on focus formation by γ-H2AX, MDC1 or 53BP1. The results imply a role for the MDC1-RAP80 interaction in focus formation by the RAP80-BRCA1 complex. In light of these recent results we discuss several aspects of the complexity of focus formation and present a model for the involvement of individual and complex recruitment mechanisms in focus formation.