| Literature DB >> 34289372 |
Sebastian M Dieter1, Christine Siegl2, Paula L Codó3, Mario Huerta4, Anna L Ostermann-Parucha4, Erik Schulz5, Martina K Zowada6, Sylvia Martin4, Karin Laaber6, Ali Nowrouzi7, Mona Blatter8, Sina Kreth8, Frank Westermann8, Axel Benner9, Ulrike Uhrig10, Kerstin Putzker10, Joe Lewis10, Andrea Haegebarth11, Dominik Mumberg11, Simon J Holton12, Joerg Weiske12, Lena-Marit Toepper12, Ulrike Scheib12, Gerhard Siemeister12, Claudia R Ball13, Bernhard Kuster14, Gabriele Stoehr15, Hannes Hahne15, Sarah Johannes16, Martin Lange12, Friederike Herbst4, Hanno Glimm17.
Abstract
Novel treatment options for metastatic colorectal cancer (CRC) are urgently needed to improve patient outcome. Here, we screen a library of non-characterized small molecules against a heterogeneous collection of patient-derived CRC spheroids. By prioritizing compounds with inhibitory activity in a subset of-but not all-spheroid cultures, NCT02 is identified as a candidate with minimal risk of non-specific toxicity. Mechanistically, we show that NCT02 acts as molecular glue that induces ubiquitination of cyclin K (CCNK) and proteasomal degradation of CCNK and its complex partner CDK12. Knockout of CCNK or CDK12 decreases proliferation of CRC cells in vitro and tumor growth in vivo. Interestingly, sensitivity to pharmacological CCNK/CDK12 degradation is associated with TP53 deficiency and consensus molecular subtype 4 in vitro and in patient-derived xenografts. We thus demonstrate the efficacy of targeted CCNK/CDK12 degradation for a CRC subset, highlighting the potential of drug-induced proteolysis for difficult-to-treat types of cancer.Entities:
Keywords: CCNK; CDK12; colorectal cancer; molecular glue degrader; targeted protein degradation
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Year: 2021 PMID: 34289372 DOI: 10.1016/j.celrep.2021.109394
Source DB: PubMed Journal: Cell Rep Impact factor: 9.423