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ID3 regulates the MDC1-mediated DNA damage response in order to maintain genome stability.

Nature communications (2017-10-14)
Jung-Hee Lee, Seon-Joo Park, Gurusamy Hariharasudhan, Min-Ji Kim, Sung Mi Jung, Seo-Yeon Jeong, In-Youb Chang, Cheolhee Kim, Eunae Kim, Jihyeon Yu, Sangsu Bae, Ho Jin You
RESUMEN

MDC1 plays a critical role in the DNA damage response (DDR) by interacting directly with several factors including γ-H2AX. However, the mechanism by which MDC1 is recruited to damaged sites remains elusive. Here, we show that MDC1 interacts with a helix-loop-helix (HLH)-containing protein called inhibitor of DNA-binding 3 (ID3). In response to double-strand breaks (DSBs) in the genome, ATM phosphorylates ID3 at serine 65 within the HLH motif, and this modification allows a direct interaction with MDC1. Moreover, depletion of ID3 results in impaired formation of ionizing radiation (IR)-induced MDC1 foci, suppression of γ-H2AX-bound MDC1, impaired DSB repair, cellular hypersensitivity to IR, and genomic instability. Disruption of the MDC1-ID3 interaction prevents accumulation of MDC1 at sites of DSBs and suppresses DSB repair. Thus, our study uncovers an ID3-dependent mechanism of recruitment of MDC1 to DNA damage sites and suggests that the ID3-MDC1 interaction is crucial for DDR.MDC1 is a key component of the DNA damage response and interacts with several factors such as γ-H2AX. Here the authors show that MDC1 interacts with ID3, facilitating MDC1 recruitment to sites of damage and repair of breaks.

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Sigma-Aldrich
MISSION® esiRNA, targeting human ATM
Sigma-Aldrich
MISSION® esiRNA, targeting human ID3