Publication
A Crispr Knockout Screen Identifies Foxf1 as a Suppressor of Colorectal Cancer Metastasis that Acts through Reduced mTOR Signalling
Publisher:
Cold Spring Harbor Laboratory
Date:
18-04-2019
DOI:
10.1101/613356
Abstract: A greater understanding of molecular mechanisms underlying metastasis is necessary for development of new strategies to prevent and treat cancer. We performed a genome-wide CRISPR/Cas9 knockout screen in MC38 colorectal cancer (CRC) cells transplanted orthotopically into mice to identify genes that promote metastasis. We undertook focussed molecular analyses to identify mechanisms underlying metastasis. The screen identified several gene knockouts over-represented in lung metastases, including Dptor (mTOR signalling) and Foxf1 (gastrointestinal tumour predisposition). We validate that loss of Foxf1 promotes metastasis, increased Foxf1 expression restrained cellular migration in-vitro and human CRC metastases express lower Foxf1 than paired primary tumours. Analysis of gene expression changes downstream of Foxf1 identified increased mTOR signalling as a possible mechanism of metastasis caused by Foxf1 loss, consistent with Dptor identification. We confirmed this mechanism demonstrating that mTOR inhibitor sirolimus reduced lung metastasis burden in xenografts. Mesenchymal Foxf1 plays a major role in intestinal development. We have shown for the first time, through an unbiased genetic screen, that reduced epithelial Foxf1 results in raised mTOR signalling and metastasis. Lennard Lee-study concept and design, acquisition of data, analysis, interpretation of data, drafting of the manuscript, statistical analysis and obtained funding. Connor Woolley-acquisition of data, analysis and interpretation of data. Thomas Starkey-acquisition of data, analysis, interpretation of data, drafting of the manuscript. Luke Freeman-Mills-interpretation of data. Andrew Bassett-technical and material support. Fanny Fanchini-technical support. Lai Mun Wang-acquisition of data and study supervision. Annabelle Lewis-study supervision. Roland Arnold-analysis, interpretation of data, statistical analysis. Ian Tomlinson-study supervision and critical revision of the manuscript. The authors whose names are listed above declare that they have no conflict of interest.