Abstract
Abstract Introduction: Anaplastic lymphoma kinase (ALK)-tyrosine kinase inhibitors (TKIs) have improved an initial clinical response of non-small-cell lung cancer (NSCLC) patients with ALK-rearrangements. However, a subset of patients shows a poor response to ALK-TKIs. Here, we aimed to identify novel mechanism of primary resistance in preclinical model from a patient who presented an impressive resistance to sequential treatment with ALK TKIs. Experimental design: The PDC YU-1076 cells were established from pleural effusion of the patient at the time he was receiving chemotherapy and radiotherapy after failure of ALK-TKI treatment. Sanger sequencing confirmed ML4-ALK variant 1 detected at the initial diagnosis. No resistance mutations in the ALK kinase domain were detected. To investigate co-occurring genetic alterations, we performed whole exome sequencing (WES) on YU-1076 cells and the matched blood sample. We further investigated the molecular profile of YU-1076 cells using RNA-sequencing analysis. Results: YU-1076 cells exhibited cross-resistance to clinically available ALK-TKIs including crizotinib, ceritinib, alectinib, and lorlatinib. However, immunoblot analysis of YU-1076 cells treated with incremental doses of TKIs unexpectedly revealed an effective reduction of ALK activity and downstream signals. We noticed that YU-1076 cells gradually changed from a small, round shape to a fibroblast-like shape following the treatment of ALK-TKIs. Transcriptome analysis confirmed enrichment for gene signatures related epithelial-to-mesenchymal transition (EMT) in ALK TKI-treated YU-1076 cells, suggesting that ALK-TKIs treatment promotes YU-1076 cells toward a more mesenchymal phenotype. WES analysis identified a major chromatin remodeling complex subunit, AT-rich interacting domain 1A (ARID1A), as well as MYC amplification, CDKN2A loss, and TP53 mutations. We focused on a synthetic lethal strategies using the SFK inhibitor dasatinib and the EZH2 inhibitor GSK126 in ARID1A mutant cancers. The combination of dasatinib with ALK-TKIs restored the sensitivity to the ALK TKIs in YU-1076 cells, accompanied by suppression of EMT marker genes VIM and CDH2 and increase of apoptotic markers BIM, PARP, and CAS3. Congruently, dasatinib significantly impaired tumor growth in YU-1076-xenografts. GSK126 also induced synergistic inhibition of cell growth with upregulation of apoptosis marker genes in YU-1076 cells, but did not affect the expression of EMT marker genes. Conclusion: Our data indicate that ARID1A could be potentially used as a predictive biomarker for unfavorable ALK-TKI response. In this context, a combination strategy of ALK TKI with dasatinib may be effective in overcoming primary resistance. Citation Format: Seung Yeon Oh, You Won Lee, Eun Ji Lee, Ju Young Kim, Sewon Park, Ju Yeon Park, Su-Jin Choi, Mi Ra Yu, Sowon Aum, Jiyun Lee, Chang Gon Kim, Jii Bum Lee, Sun Min Lim, Min Hee Hong, Mi Ran Yun, Byoung Chul Cho. Targeting the ARID1A mutations overcomes primary resistance to ALK inhibitors in EML4-ALK positive NSCLC. [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 3884.
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