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Learn MoreOncoproteins such as the BRAFV600E kinase entrust cancer cells with malignant properties, but they also create unique vulnerabilies. Therapeutic targeting of the BRAFV600E-driven cytoplasmic signaling network has proven ineffective, since patients regularly relapse with reactivation of the targeted signaling pathways. Here, we identified the nuclear protein SFPQ to be synthetically lethal with BRAFV600E in a loss-of-function shRNA screen. SFPQ depletion decreased proliferation and induced apoptosis in BRAFV600E-driven colorectal and melanoma cells, and reduced tumor growth in xenografts. Mechanistically, SFPQ loss in BRAF-mutant cancer cells triggered the Chk1-dependent replication checkpoint, resulting in replication stress in the absence of overt DNA damage. Affected cells stalled in S-Phase with hallmark signs of impaired replication factories. Induction of BRAFV600E and concomitant loss of SFPQ sensitized cells to a combination of DNA replication checkpoint inhibitors and chemically induced replication stress, pointing towards future therapeutic approaches exploiting nuclear vulnerabilities induced by BRAFV600E. SOURCE: Bertram Klinger (bertram.klinger@charite.de) - Charite Universitätsmedizin
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