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Supplemental Figure 4 from Akt Activation Mediates Acquired Resistance to Fibroblast Growth Factor Receptor Inhibitor BGJ398

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posted on 2023-04-03, 15:43 authored by Jharna Datta, Senthilkumar Damodaran, Hannah Parks, Cristina Ocrainiciuc, Jharna Miya, Lianbo Yu, Elijah P. Gardner, Eric Samorodnitsky, Michele R. Wing, Darshna Bhatt, John Hays, Julie W. Reeser, Sameek Roychowdhury

Heat maps show RPPA protein changes in pair-matched control and BGJ398-resistant cell lines.

Funding

American Society of Clinical Oncology

Pelotonia Postdoctoral Fellowship

American Cancer Society

Prostate Cancer Foundation

American Lung Association

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ARTICLE ABSTRACT

Activation of FGFR signaling through mutations, amplifications, or fusions involving FGFR1, 2, 3, or 4 is seen in multiple tumors, including lung, bladder, and cholangiocarcinoma. Currently, several clinical trials are evaluating the role of novel FGFR inhibitors in solid tumors. As we move forward with FGFR inhibitors clinically, we anticipate the emergence of resistance with treatment. Consequently, we sought to study the mechanism(s) of acquired resistance to FGFR inhibitors using annotated cancer cell lines. We identified cancer cell lines that have activating mutations in FGFR1, 2, or 3 and treated them chronically with the selective FGFR inhibitor, BGJ398. We observed resistance to chronic BGJ398 exposure in DMS114 (small-cell lung cancer, FGFR1 amplification) and RT112 (urothelial carcinoma, FGFR3 fusion/amplification) cell lines based on viability assays. Reverse-phase protein array (RPPA) analysis showed increased phosphorylation of Akt (T308 and S473) and its downstream target GSK3 (S9 and S21) in both the resistant cell lines when compared with matching controls. Results of RPPA were confirmed using immunoblots. Consequently, the addition of an Akt inhibitor (GSK2141795) or siRNA was able to restore sensitivity to BGJ398 in resistant cell lines. These data suggest a role for Akt pathway in mediating acquired resistance to FGFR inhibition. Mol Cancer Ther; 16(4); 614–24. ©2017 AACR.

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