Abstract 1527: Splicing factors determine breast cancer cell mitosis through control of sister chromatid cohesion

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Abstract Breast cancer is the mostly diagnosed cancer in women worldwide and is also the leading cause of death from cancer in women, mainly due to metastasis formation. Accumulating evidence suggests that RNA splicing is critical in breast cancer progression. To investigate the role of every single component of the splicing machinery (the spliceosome) in this process, we systematically evaluated the effect of siRNA-mediated knockdown of 244 splicing factors on proliferation in two highly proliferative breast cancer cell lines MDA-MB-231 and Hs578T. Hits of the primary screen were validated with single siRNAs and separated based on their effects on migration and proliferation respectively. Knockdown of nine validated proliferation hits, amongst which was SF3B1, a known breast cancer driver gene, resulted for all nine hits in a distinct poly-lobed nuclear phenotype in both cell types, accompanied by increased DNA content and higher number of cells in G1-S transition. Increased levels of phospho-Histone H3 and lack of metaphase alignment suggested a defect in mitosis, which was confirmed by decreased RNA expression of sister chromatid cohesion factors MAU2, ESPL1 and SMC1A and interestingly, increased CDCA5 RNA levels. Upon splicing factor knockdown, CDCA5 intron 1 was retained resulting in decreased CDCA5 protein levels, inaccurate metaphase alignment and finally cell death. To identify the direct partners of the splicing factors that control mitosis, we coupled pull-down of GFP fused splicing factors with mass spectrometry. Seven out of the nine splicing factors that were identified in our screen causing poly-lobed nuclear phenotypes, resided in the same protein complex together with proteins involved in snRNP assembly and some mitosis-related factors. In conclusion, we have identified several splicing factors that are critically determining breast cancer cell proliferation through modulating the expression of chromatid cohesion factors and thereby mediating the successful metaphase alignment and ultimate mitosis. Citation Format: Esmee Koedoot, John Martens, Sylvia E. Le Dévédec, Bob van de Water. Splicing factors determine breast cancer cell mitosis through control of sister chromatid cohesion [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 1527.