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Abstract 3871: KRAS G12C mutant allele amplification drives resistance to sotorasib in vitro

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Sotorasib is an approved KRASG12C-selective inhibitor for the treatment of KRAS p.G12C-mutant advanced and previously treated non-small cell lung cancers (NSCLC). Acquired resistance due to genomic alterations following sotorasib treatment… Click to show full abstract

Sotorasib is an approved KRASG12C-selective inhibitor for the treatment of KRAS p.G12C-mutant advanced and previously treated non-small cell lung cancers (NSCLC). Acquired resistance due to genomic alterations following sotorasib treatment has been observed in 28% of lung cancer patients (CodeBreaK100, ASCO 2022) and can include bypass signaling, inactivation of negative feedback loops, or compensatory mutations in KRASG12C including amplification of KRAS. Preclinical studies on the mechanisms of acquired resistance are critical for understanding these resistance patterns and can reveal new therapeutic or combination strategies in the clinic. For that reason, we developed an NCI-H358 lung cancer model of acquired resistance to KRASG12C inhibition in vitro. NCI-H358 cells were continuously cultured in the presence of elevated concentrations of sotorasib (IC90) until resistance to KRASG12C inhibitor was achieved. Expression analyses of the resistant cells by ddPCR and immunoblotting showed increases in both KRAS gene and protein levels, resulting in enhanced MAPK signaling. siRNA knockdown of KRAS G12C expression re-sensitized the resistant cells to an analog of sotorasib. Further characterization of this cell line by whole exome sequencing (WES) and fluorescence in situ hybridization (FISH) showed that resistance was not due to genetic co-alterations but amplification of the mutant allele specifically. In comparison to DMSO-treated and parental controls, the sotorasib-resistant NCI-H358 cells contained an approximately 50-fold increase in KRAS G12C mutant allele copy numbers. Preclinical data generated using a KRASG12C inhibitor-resistant lung cancer cell line is consistent with clinical observations of acquired KRAS amplification following KRASG12C inhibitor treatment as a mechanism of resistance. This model further provides an opportunity to study acquired KRAS amplification and investigate combination treatment options in vitro. Citation Format: Deanna Mohn, Anne Y. Saiki, Pragathi Achanta, Andres Plata Stapper, J. Russell Lipford, Rati Verma. KRAS G12C mutant allele amplification drives resistance to sotorasib in vitro. [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 3871.

Keywords: kras g12c; amplification; resistance; mutant allele; g12c mutant; sotorasib

Journal Title: Cancer Research
Year Published: 2023

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