Microcephalin regulates BRCA2 and Rad51-associated DNA double-strand break repair.

Microcephalin (MCPH1) is a BRCA1 COOH terminal (BRCT) domain containing protein involved in the cellular response to DNA damage that has been implicated in autosomal recessive primary microcephaly. MCPH1 is recruited to sites of DNA double-strand breaks by phosphorylated histone H2AX (gammaH2AX), but the mechanism by which MCPH1 contributes to the repair process remains to be determined. Here, we show that MCPH1 binds to BRCA2 and regulates the localization of BRCA2 and Rad51 at sites of DNA damage. The interaction occurs through the NH(2) terminus of BRCA2 and the COOH terminal BRCT domains of MCPH1. Disruption of the interaction between MCPH1 and BRCA2 has no effect on the ability of BRCA2 to form a complex with Rad51 but is associated with substantially reduced levels of both BRCA2 and Rad51 at sites of DNA double-strand breaks. Uncoupling of MCPH1 from BRCA2 also interferes with Rad51-dependent and BRCA2-dependent homologous recombination repair activity. These results suggest that the role of MCPH1 in the DNA damage response is in part associated with the ability to localize BRCA2 to sites of DNA double-stand breaks.

Allelic imbalance in hMLH1 or BRCA2 loci associated with response of cervical and endometrial cancer to radiotherapy.

Effectiveness of radiotherapy is influenced by several genetic properties of the targeted cells. The aim of this study was the identification of prognostic indicators of tumor response to radiation in cervical and endometrial cancer. Using microsatellite DNA analysis, we investigated 31 markers, located on 1p, 2p, 2q, 3p, 9p, 9q, 13q, 17p and 17q for genomic alterations in 37 cervical and 21 endometrial cancer cases, with complete follow-up data. Genetic alterations of the initial tumor genotypes were observed after radiation in 86.5% of cervical and 81.0% of endometrial cases. Reversions to the original normal genotype were observed in 40.5 and 28.6% respectively, predominantly in cured patients rather than in recurred cases. Survival curves by the Kaplan-Meier method showed a worse prognosis for cervical cancer patients whose tumors harbor allelic imbalance (AI) on 3p or 13q, and for endometrial cancer patients whose tumors harbor AI on 13q. Our data suggest a possible association of the hMLH1 or BRCA2 genes, implicated in distinct DNA repair pathways and located on 3p and 13q respectively, with response of cervical and endometrial cancer to radiotherapy. Moreover, microsatellite DNA analysis before and after radiation treatment could be used as a marker of the clinical outcome of patients.