Abstract As colorectal cancer (CRC) mortality remains high due to metastatic spread in patients with advanced disease stages, we here aimed at identifying novel metastasis regulators in CRC and at understanding their mechanism of action. In CRC, tumor progression and metastasis formation are driven by cells that possess tumor-initiating cell (TIC) activity. We therefore employed a collection of primary patient-derived CRC tumor spheroid cultures (TSC) that are enriched for cells with TIC activity to perform a gene activating in vivo screen, intending to identify genes that enhance metastasis formation. To this end, TSC (n=4) were transduced with a lentiviral trapping vector that integrates into the genome and thereby drives the overexpression of genes located in the vicinity of the integration site (IS). Transduced TSC were then serially transplanted under the kidney capsule of immunodeficient mice (NSG) and monitored for the induction of metastasis formation. Analysis of lentiviral IS by linear amplification-mediated (LAM)-PCR revealed an enrichment of an IS within the gene locus of Estrogen Receptor Binding Site Associated Antigen 9 (EBAG9) in metastases. RNA sequencing confirmed the trapping vector mediated upregulation of a truncated version of the EBAG9 gene (exon 5-7), which strongly suggested a contribution of EBAG9 to metastatic spread. To validate these findings, both the truncated (TR) as well as the physiologically occurring full length (FL) EBAG9 gene were overexpressed in TSC (n=4) and serially transplanted into NSG mice. In addition to an augmentation in metastasis upon EBAG9 overexpression compared to controls (FL: 1.4-fold, TR: 2.4-fold), we also detected the occurrence of lymphogenous metastases when EBAG9 levels were increased, indicating that EBAG9 not only contributes to metastatic spread but also modulates tropism. To further characterize the underlying processes, global gene and protein expression analyses were performed in primary TSC as well as in the CRC cell line DLD1. Compared to control transduced cells, EBAG9 overexpression induced expression changes in cell adhesion and microtubule molecules, which led us to investigate cell migration and adhesion as potential contributing mechanisms to metastasis formation. We here observed an increase both in cell migration as well as in adhesion to the extracellular matrix protein collagen I upon EBAG9 overexpression in DLD1. Interestingly, DLD1 adhesion to lymphatic endothelial cells was significantly higher in EBAG9 FL (p=0.008) and EBAG9 TR (p=0.016) overexpressing cells, underscoring the role of EBAG9 in tropism modulation. In summary, we here identified EBAG9 as novel metastasis regulator in CRC which will not only contribute to a better mechanistic understanding of metastatic spread but also to the development of novel future strategies for preventing and targeting advanced disease stages. Citation Format: Karin Laaber, Taronish D. Dubash, Anna Maria Melzer, Tania Christiansen, Nati Ha, Benedikt Brors, Martin Schneider, Friederike Herbst, Hanno Glimm, Claudia R. Ball. A gene activating in vivo screen identifies EBAG9 as novel metastasis regulator in human colorectal cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 2852.
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