Summary
MCM8 and MCM9 are paralogues of the MCM2‐7 eukaryotic DNA replication helicase proteins and play a crucial role in a homologous recombination‐mediated repair process to resolve replication stress by fork stalling. Thus, deficiency of MCM8‐9 sensitizes cells to replication stress caused, for example, by platinum compounds that induce inter‐strand crosslinks. It is suggested that cancer cells undergo more replication stress than normal cells due to hyper‐stimulation of growth. Therefore, it is possible that inhibiting MCM8‐9 selectively hypersensitizes cancer cells to platinum compounds and poly(ADP‐ribose) polymerase inhibitors, both of which hamper replication fork progression. Here, we inhibited MCM8‐9 in transformed and non‐transformed cells and examined their sensitivity to cisplatin and olaparib. We found that knockout of MCM9 or knockdown of MCM8 selectively hypersensitized transformed cells to cisplatin and olaparib. In agreement with reported findings, RAS‐ and HPV16 E7‐mediated transformation of human fibroblasts increased replication stress, as indicated by induction of multiple DNA damage responses (including formation of Rad51 foci). Such replication stress induced by oncogenes was further increased by knockdown of MCM8, providing a rationale for cancer‐specific hypersensitization to cisplatin and olaparib. Finally, we showed that knocking out MCM9 increased the sensitivity of HCT116 xenograft tumors to cisplatin. Taken together, the data suggest that conceptual MCM8‐9 inhibitors will be powerful cancer‐specific chemosensitizers for platinum compounds and PARP inhibitors, thereby opening new avenues to the design of novel cancer chemotherapeutic strategies.
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