Abstract 2489: Sensitivity of liver cancer cell lines to B-catenin knock-down correlates with pathway activation

Introduction: Hepatocellular carcinoma (HCC) is the 3rd leading cause of cancer-related mortality. Currently there are few treatment options available for advanced HCC patients. Multi-kinase inhibitors sorafenib and regorafenib are the only approved systemic HCC therapies and are only marginally effective in extending survival. HCC is largely driven by difficult-to-drug oncogenes, including β-catenin, and none of the current HCC therapeutics on the market or in development addresses these major genetic drivers of disease. β-catenin is an integral part of the WNT signaling pathway and plays a major role in regulation of cell survival, apoptosis and developmental processes. The goal of this study was to systematically interrogate contribution of β-catenin to HCC pathogenesis. Methods: The extent of genomic alterations in β-catenin itself or components of its regulatory network was interrogated in two large HCC data sets, The Cancer Genome Atlas and HCC cohort from Asan Medical Center. β-catenin in vitro credentialing (target knock-down, PD modulation and cell growth inhibition) was carried out in cultured HCC cell lines using multiple siRNAs against β-catenin. Stably expressed doxycycline-inducible shRNAs targeting β-catenin were used to establish in vivo dependency in HCC tumor xenografts. Results: Building on previous observations, we detected high frequency of somatic mutations in CTNNB1/β-catenin itself and in constituent members of its regulatory network in two independent cohorts of HCC patients. Furthermore, significant upregulation in β-catenin protein levels was detected in the overwhelming majority of HCC patient samples, patient-derived xenografts and established cell lines. Using genetic tools validated for target specificity through phenotypic rescue experiments, we discovered that dependency on β-catenin in human HCC cell lines generally tracks with its activation status. HCC cell lines that harbored activating mutations in CTNNB1/β-catenin or displayed elevated levels of non-phosphorylated (active) β-catenin were significantly more sensitive to β-catenin siRNA treatment than cell lines with wild-type CTNNB1/β-catenin and lower active β-catenin. Finally, significant therapeutic benefit of β-catenin knock-down was demonstrated in established HCC tumor xenografts using doxycycline-inducible shRNA system. β-catenin downregulation and tumor growth inhibition was associated with reduction in PD marker AXIN2, and decreased cancer cell proliferation. Conclusions: β-catenin is an important therapeutic target in HCC that could potentially be targeted using therapeutic siRNA suitably formulated for delivery to human liver tumors. Genomic alterations in CTNNB1/β-catenin, as well as increased abundance of non-phosphorylated (active) β-catenin, may serve as predictive biomarkers for patient selection. Citation Format: Zhihu (Jeff) Ding, Chaomei Shi, Lan Jiang, Tatiana Tolstykh, Hui Cao, Dinesh Bangari, Susan Ryan, Taiguang Jin, Mikhail Levit, Karl Mamaat, Qunyan Yu, Hui Qu, Joern Hopke, May Cindhuchao, Dietmar Hoffmann, Fangxian Sun, Mike Helms, Kerstin Jahn-Hofmann, Sabine Scheidler, Douglas Fang, Liang Schweizer, Jack Pollard, Christopher Winter, Dmitri Wiederschain. Sensitivity of liver cancer cell lines to B-catenin knock-down correlates with pathway activation [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 2489.