EGFR blockade leads to singular oncogene-addiction in ETV6-NTRK3 transformed human epithelial cells and hypersensitization to entrectinib.

Abstract

e18055 Background: Entrectinib, a TRK kinase inhibitor, has been approved for the treatment of tissue agnostic rare tumors positive for TRK fusions. A very low frequency molecular subset of TRK fusion tumors dubbed as secretory carcinoma (SC) are characterized by organ-agnostic epithelial origin, ETV6-NTRK3 (EN) fusion and distinguishable secretory-type tumor cells. These tumors have been frequently miscategorized as acinic cell carcinoma or adenocarcinoma. A previous mouse study identified EGF dependent epithelial progenitors as putative cell-of-origin for SC. Methods: To test the role of EGFR signaling in EN mediated transformation and therapy resistance, we expressed EN, kinase-dead EN-K380M, and drug-resistant EN-G623R in human epithelial MCF10A cells with EGF-dependent primitive function and investigated their ability to grow in the presence and absence of EGF and/or entrectinib. To understand the significance of findings based on our model, we analyzed a total of 22 ‘rare’ patients from Mayo Clinic Tissue Registry and analyzed TCGA PanCan datasets. Results: We report herein that EGF signaling is essential for normal growth but dispensable during EN driven transformation. Our findings suggest that levels equivalent to circulating EGF (0.5-1ng/ml) is sufficient to drive 100% resistance to entrectinib in vitro. Three different strategies to blockade EGF/EGFR axis including depletion of EGF in culture system, genetic depletion of EGFR using shRNA as well as cetuximab antibody-based EGFR neutralization potentiated oncogene-addiction and hypersensitivity to entrectinib in our models. As predicted, models with G623R mutation in EN was refractory to entrectinib under all experimental conditions. Further omics analysis of TCGA PanCan suggested that EN and EGFR mutations are mutually exclusive and entrectinib-resistant G623R mutation were uncommon. Interestingly, nearly all EN tumors from Mayo Clinic Tissue Registry immunostained weakly or strongly for EGFR and showed perfect concordance with pEGFR suggesting pathway activation. Conclusions: Together, these findings raise an important question whether blockade of ‘wildtype’ EGFR signaling could improve medical intervention in SC patients presenting with wildtype EGFR and no drug-resistant mutation in entrectinib, by improving oncogene-addiction and attendant hypersensitization of transformed cells to entrectinib.