Department of Surgery, Mayo Clinic, Rochester, MN;
Jennifer L Tomlinson , Ryan D Watkins , Dong-Gi Mun , Caitlin Conboy , Akhilesh Pandey , Rory L Smoot
Background: Cholangiocarcinoma (CCA) is a lethal hepatobiliary adenocarcinoma with increasing incidence and poor outcomes. Treatment success has been hindered by resistance, and new therapeutic strategies are necessary. The Src-family tyrosine kinase, LCK, activates Yes-associated protein (YAP), a known oncogene in CCA. While YAP has been historically difficult to target, we recently described LCK inhibition as a potential therapeutic option in CCA. We probed the LCK interactome employing biotinylation site identification technology (BioSITe) to discover molecular co-dependencies in the LCK-YAP axis. Methods: LCK-deficient HuCCT1, wild-type HuCCT1, and wild-type RBE cells were transfected with pEF-LCK-TurboID and used to reveal protein-protein interactions. Biotinylated peptides were enriched using anti-biotin antibodies followed by mass spectrometry analysis. Co-immunoprecipitation (Co-IP) was used to confirm interactions between LCK and identified interactors. Phosphoproteome profiling of human CCA tumors and patient derived xenografts was conducted to identify active kinase signatures in CCA. Tyrosine phosphorylated peptides were enriched using anti-phosphotyrosine antibody beads and analyzed by high-resolution mass spectrometery/liquid chromatography. Immunoblot analysis of HuCCT1 and LCK-deficient HuCCT1 cells was used to map the mechanistic interaction between LCK and epidermal growth factor receptor, EGFR. Inhibitors of EGFR and LCK, afatinib and NTRC 0652-0, respectively, were tested in vitro on human and murine CCA cell lines. Cell viability was determined with CellTiter-Glo; Calcusyn software was used to determine synergistic drug effects. Results: We discovered intracellular interactors of LCK in CCA using BioSITe. We identified both known and novel LCK interactors, including EGFR. Given that EGFR functions as a molecular driver of tumorigenesis and is increasingly recognized as a biomarker of resistance in a variety of tumors, we performed a phosphoproteomic evaluation of CCA tumors in which activated EGFR was identified by the presence of EGFR-Y1092, Y1197, and Y1172 phosphorylation. EGFR phosphorylation decreased under conditions of genetic LCK knock out and inhibition by NTRC 0652-0. Co-IP confirmed the interaction of EGFR with LCK. EGFR-Y1092 phosphorylation was downregulated with genetic knockout of LCK by immunoblot. Finally, EGFR inhibition was evaluated as a therapeutic strategy utilizing afatinib. Effects on cell viability were noted in both human and murine CCA cells. Afatinib and NTRC 0652-0 demonstrated a synergistic effect in vitro, with calculated combination indices of 0.007 – 0.790. Conclusions: A novel interaction between EGFR and LCK in CCA was identified using an unbiased proximity-dependent biotinylation technique. Dual blockade of LCK and EGFR is synergistic in CCA and may be a viable therapeutic approach for patients.
Disclaimer
This material on this page is ©2024 American Society of Clinical Oncology, all rights reserved. Licensing available upon request. For more information, please contact licensing@asco.org
Abstract Disclosures
2023 ASCO Breakthrough
First Author: Shohei Takaichi
2022 ASCO Gastrointestinal Cancers Symposium
First Author: Caitlin Conboy
2023 ASCO Annual Meeting
First Author: Min Hee Hong
2023 ASCO Annual Meeting
First Author: Andrew Gdowski