作者
Michaela Reissland,Oliver Hartmann,Saskia Tauch,Jeroen M. Bugter,Cristian Prieto‐Garcia,Clemens Schulte,Sinah Loebbert,Daniel Solvie,Eliya Bitman-Lotan,Ashwin Narain,Anne‐Claire Jacomin,Christina Schuelein‐Voelk,Carmina Teresa Fuß,Nikolett Pahor,Carsten P. Ade,Viktoria Buck,Michael Potente,Vivian Li,Gerti Beliu,Armin Wiegering,Tom N. Grossmann,Martin Eilers,Elmar Wolf,Hans Michael Maric,Mathias T. Rosenfeldt,Madelon M. Maurice,Ivan Ðikić,Peter Gallant,Amir Orian,Markus E. Diefenbacher
摘要
Abstract The contribution of deubiquitylating enzymes (DUBs) to β-Catenin stabilization in intestinal stem cells and colorectal cancer (CRC) is poorly understood. Here, and by using an unbiassed screen, we discovered that the DUB USP10 stabilizes β-Catenin specifically in APC-truncated CRC in vitro and in vivo. Mechanistic studies, including in vitro binding together with computational modelling, revealed that USP10 binding to β-Catenin is mediated via the unstructured N-terminus of USP10 and is outcompeted by intact APC, favouring β-catenin degradation. However, in APC-truncated cancer cells USP10 binds to β-catenin, increasing its stability which is critical for maintaining an undifferentiated tumour identity. Elimination of USP10 reduces the expression of WNT and stem cell signatures and induces the expression of differentiation genes. Remarkably, silencing of USP10 in murine and patient-derived CRC organoids established that it is essential for NOTUM signalling and the APC super competitor-phenotype, reducing tumorigenic properties of APC-truncated CRC. These findings are clinically relevant as patient-derived organoids are highly dependent on USP10, and abundance of USP10 correlates with poorer prognosis of CRC patients. Our findings reveal, therefore, a role for USP10 in CRC cell identity, stemness, and tumorigenic growth by stabilising β-Catenin, leading to aberrant WNT signalling and degradation resistant tumours. Thus, USP10 emerges as a unique therapeutic target in APC truncated CRC.