9656

MDC1

NFBD1;mediator of DNA-damage checkpoint 1;MDC1;mediator of DNA-damage checkpoint 1

homologue to Drosophila photoreceptor protein calphotin|mediator of DNA damage checkpoint 1|mediator of DNA damage checkpoint protein 1|nuclear factor with BRCT domains 1

6p21.3

protein-coding

The importance of the DNA damage response (DDR) pathway in development, genomic stability, and tumor suppression is well recognized. Although 53BP1 and MDC1 have been recently identified as critical upstream mediators in the cellular response to DNA double-strand breaks, their relative hierarchy in the ataxia telangiectasia mutated (ATM) signaling cascade remains controversial. To investigate the divergent and potentially overlapping functions of MDC1 and 53BP1 in the ATM response pathway, we generated mice deficient for both genes. Unexpectedly, the loss of both MDC1 and 53BP1 neither significantly increases the severity of defects in DDR nor increases tumor incidence compared with the loss of MDC1 alone. We additionally show that MDC1 regulates 53BP1 foci formation and phosphorylation in response to DNA damage. These results suggest that MDC1 functions as an upstream regulator of 53BP1 in the DDR pathway and in tumor suppression.

MDC1 and BRIT1 have been shown to function as key regulators in response to DNA damage. However, their roles in centrosomal regulation havent been elucidated. In this study, we demonstrated the novel functions of these two molecules in regulating centrosome duplication and mitosis. We found that MDC1 and BRIT1 were integral components of the centrosome that colocalize with gamma-tubulin. Depletion of either protein led to centrosome amplification. However, the mechanisms that allow them to maintain centrosome integrity are different. MDC1-depleted cells exhibited centrosome overduplication, leading to multipolar mitosis, chromosome missegregation, and aneuploidy, whereas BRIT1 depletion led to misaligned spindles and/or lagging chromosomes with defective spindle checkpoint activation that resulted in defective cytokinesis and polyploidy. We further illustrated that both MDC1 and BRIT1 were negative regulators of Aurora A and Plk1, two centrosomal kinases involved in centrosome maturation and spindle assembly. Moreover, the levels of MDC1 and BRIT1 inversely correlated with centrosome amplification, defective mitosis and cancer metastasis in human breast cancer. Together, MDC1 and BRIT1 may function as tumor-suppressor genes, at least in part by orchestrating proper centrosome duplication and mitotic spindle assembly.