YAP1/TAZ drives ependymoma-like tumour formation in mice

Eder, Noreen; Roncaroli, Federico; Dolmart, Marie-Charlotte; Horswell, Stuart; Andreiuolo, Felipe; Flynn, Helen; Lopes, Andre Teixeira; Claxton, Suzanne; Kilday, John-Paul; Collinson, Lucy; Mao, Jun-Hao; Pietsch, Torsten; Thompson, Barry; Snijders, Ambrosius; Ultanir, Sila K

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YAP1/TAZ drives ependymoma-like tumour formation in mice

journal contribution

posted on 2020-05-22, 16:54 authored by Noreen Eder, Federico Roncaroli, Marie-Charlotte Dolmart, Stuart Horswell, Felipe Andreiuolo, Helen Flynn, Andre Teixeira Lopes, Suzanne Claxton, John-Paul Kilday, Lucy Collinson, Jun-Hao Mao, Torsten Pietsch, Barry Thompson, Ambrosius Snijders, Sila K Ultanir

YAP1 gene fusions have been observed in a subset of paediatric ependymomas. Here we show that, ectopic expression of active nuclear YAP1 (nlsYAP5SA) in ventricular zone neural progenitor cells using conditionally-induced NEX/NeuroD6-Cre is sufficient to drive brain tumour formation in mice. Neuronal differentiation is inhibited in the hippocampus. Deletion of YAP1's negative regulators LATS1 and LATS2 kinases in NEX-Cre lineage in double conditional knockout mice also generates similar tumours, which are rescued by deletion of YAP1 and its paralog TAZ. YAP1/TAZ-induced mouse tumours display molecular and ultrastructural characteristics of human ependymoma. RNA sequencing and quantitative proteomics of mouse tumours demonstrate similarities to YAP1-fusion induced supratentorial ependymoma. Finally, we find that transcriptional cofactor HOPX is upregulated in mouse models and in human YAP1-fusion induced ependymoma, supporting their similarity. Our results show that uncontrolled YAP1/TAZ activity in neuronal precursor cells leads to ependymoma-like tumours in mice.