Abstract
Abstract Endoplasmic Reticulum Oxidoreductase-1 alpha (ERO1α) is an endoplasmic reticulum (ER) resident protein responsible for oxidation of Protein Disulfide Isomerase (PDI). The molecular interactions between ERO1α and PDI allow for proper protein folding to occur. Recent reports indicate that ERO1α expression is a poor prognostic indicator of survival in multiple cancer types including multiple myeloma, lung cancer, esophageal carcinoma, hepatocellular carcinoma, and diffuse large B-cell lymphoma. In this study we utilized genetic strategies to determine the role of ERO1α in EGFR driven Non-Small Cell Lung Cancer (NSCLC). Our data indicate that CRISPR knockout of ERO1α leads to decreased clonogenicity in both PC-9 and HCC4006 cell lines. The phenotype can be partially rescued upon addition of conditioned media derived from the control cell lines. The data suggest that ERO1α expression is required for correct protein folding of a secreted factor that contributes to clonogenicity and growth. PC-9 ERO1α knockout cells injected into SCID-Beige animals led to increased overall survival (OS) compared to animals injected with PC-9 control cells. (PC-9 Control OS = 100 days, PC-9 ERO1α Knockout OS =154 days p=0.0045 **). Interestingly, ERO1α knockout cell lines still maintained sensitivity to standard of care agent Osimertinib. We identified T151742 as an ERO1α inhibitor that was approximately 2-fold more potent compared to the previously published ERO1α inhibitor EN460. A cellular thermal shift assay was performed to determine specificity of T151742 toward ERO1α compared to other FAD containing enzymes. We show that T151742 had a higher specificity towards ERO1α in comparison to other flavoenzymes such as ERO1β and LSD-1. Finally, our data indicate that PC-9 ERO1α knockout cell lines were ~2-fold resistant to T151742 by MTT but were completely resistant when using a 3D cell culture model suggesting T151742 is reliant on ERO1α in a 3D system. Finally, treatment of PC9 and HCC4006 cells with T151742 in combination with Osimertinib was synergistic in vitro. Taken together, this suggests ERO1α may be a viable target for EGFR driven NSCLC and that future studies will elucidate the use of T157142 in vivo as a single agent and in combination with EGFR inhibitors using in vivo studies. Citation Format: Brennan D. Johnson, Wei-Chih Chen, Werner J. Geldenhuys, Lori A. Hazlehurst. ERO1α as a potential target in EGFR driven non-small cell lung cancer [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 3993.
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