Abstract
Werner Syndrome protein (WRN) is a RecQ enzyme involved in the maintenance of genome integrity. Germline loss of function mutations in WRN lead to premature aging and pre-disposition to cancer. We evaluated synthetic lethality (SL) between not only of WRN, but also of another human RecQ helicase, BLM, with DNA damage response genes in cancer cell lines. We found that WRN exhibited SL with a DNA mismatch repair protein MutL homolog 1 (MLH1), loss of which is associated with high microsatellite instability (MSI-H). We then demonstrated that MSI-H cells exhibited increased double-stranded DNA breaks, altered cell cycles and decreased viability in response to WRN knockdown. Although WRN is the only human RecQ enzyme with a distinct exonuclease domain, only loss of helicase activity drives the MSI SL interaction. This SL interaction in MSI cancer cells positions WRN as a relevant therapeutic target in patients with MSI-H tumors.
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