Abstract 1674: FGF8 as a modulator of Wilms' tumor in vitro growth and longevity

Abstract

Abstract Wilms’ tumor is the most common pediatric renal tumor accounting for 6-7% of all childhood cancers. Development of faithful Wilms’ tumor cell lines is needed to identify novel therapeutics. Currently, established Wilms’ tumor cell lines that are suitable for high throughput studies only represent anaplastic Wilms, a rare subtype. In contrast, cell lines representing the more common favorable histology Wilms’ tumor (FHWT) often have poor proliferative capacity and are unable to passage long-term (e.g. >20 passages). For this reason, there is a need to establish robust cell lines representing FHWT. We hypothesize that there are core factors missing from the cell culture medium which prevent proper growth signaling and proliferation. We first performed bulk RNA-sequencing from patients and associated cell lines at Aflac Cancer and Blood Disorders Center with an underlying diagnosis of FHWT. Transcriptomic analyses showed that the reduced growth and proliferation in these FHWT cell lines may be due to reduced presence of the mitogenic fibroblast growth factor 8 (FGF8) in the cell culture environment as compared to the tumor environment. Wilms’ tumor has notably high FGF8 expression levels compared to all other pediatric tumors, implicating FGF8 as a potential driving factor in tumor maintenance. To characterize the phenotypic effects of FGF8 reintroduction in short term FHWT cell lines, we both endogenously overexpressed FGF8 via a lentiviral vector and ectopically added recombinant FGF8 to the cell culture medium. Qualitatively, endogenous overexpression of FGF8 induced distinct morphological changes in cells, converting the enlarged and flattened cells into more focal cells resembling proliferative early passage cells. Quantitatively, overexpression of FGF8 in one favorable histology cell line led to an increased rate of cellular proliferation and extended the cellular longevity by seven passages (47% above baseline). RNA-sequencing analysis of these FGF8 overexpressing cells implicated the anti-apoptotic gene, NTSR1, and an extracellular matrix protein, SNED1, as potential downstream targets of FGF8 overexpression. However, ectopic addition of recombinant FGF8 protein to the cellular medium had less pronounced effects, with seemingly cell-line specific effects. These data demonstrate FGF8 as possibly being required for survival in certain Wilms’ tumor cell lines that can be modulated to influence in vitro proliferation and longevity. Citation Format: Garrett Cooper, Benjamin Lee, Nate Smyth, Karuna Mittal, Taylor Lawrence, Hunter Jonus, Jenny Shim, Kelly Goldsmith, Andrew Hong. FGF8 as a modulator of Wilms' tumor in vitro growth and longevity [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 1674.