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Multimodal perturbation analyses of cyclin-dependent kinases reveal a network of synthetic lethalities associated with cell-cycle regulation and transcriptional regulation.
- Ford, Kyle;
- Munson, Brenton P;
- Fong, Samson H;
- Panwala, Rebecca;
- Chu, Wai Keung;
- Rainaldi, Joseph;
- Plongthongkum, Nongluk;
- Arunachalam, Vinayagam;
- Kostrowicki, Jarek;
- Meluzzi, Dario;
- Kreisberg, Jason F;
- Jensen-Pergakes, Kristen;
- VanArsdale, Todd;
- Paul, Thomas;
- Tamayo, Pablo;
- Zhang, Kun;
- Bienkowska, Jadwiga;
- Mali, Prashant;
- Ideker, Trey
- et al.
Published Web Location
https://doi.org/10.1038/s41598-023-33329-2Abstract
Cell-cycle control is accomplished by cyclin-dependent kinases (CDKs), motivating extensive research into CDK targeting small-molecule drugs as cancer therapeutics. Here we use combinatorial CRISPR/Cas9 perturbations to uncover an extensive network of functional interdependencies among CDKs and related factors, identifying 43 synthetic-lethal and 12 synergistic interactions. We dissect CDK perturbations using single-cell RNAseq, for which we develop a novel computational framework to precisely quantify cell-cycle effects and diverse cell states orchestrated by specific CDKs. While pairwise disruption of CDK4/6 is synthetic-lethal, only CDK6 is required for normal cell-cycle progression and transcriptional activation. Multiple CDKs (CDK1/7/9/12) are synthetic-lethal in combination with PRMT5, independent of cell-cycle control. In-depth analysis of mRNA expression and splicing patterns provides multiple lines of evidence that the CDK-PRMT5 dependency is due to aberrant transcriptional regulation resulting in premature termination. These inter-dependencies translate to drug-drug synergies, with therapeutic implications in cancer and other diseases.
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