KRAS is one of the most heavily mutated oncogenes in cancer and targeting mutant KRAS with drugs has proven difficult. However, recent FDA approval of the KRAS G12C selective inhibitor sotorasib (AMG-510), has breathed new life into the drive to develop mutant KRAS inhibitors. In an effort to study RAS inhibitors in cells and identify new compounds that inhibit Ras signaling, western blotting and ELISA assays are commonly used. These traditional immunoassays are tedious, require multiple washing steps, and are not easily adaptable to a high throughput screening (HTS) format. To overcome these limitations, we applied Lumit immunoassay technology to analyze RAS signaling pathway activation and inhibition through the detection of phosphorylated ERK. The assay we developed was used to rank order potencies of allele specific inhibitors within cell lines harboring various activating KRAS mutations. An inhibition profile was obtained indicating various potencies and selectivity of the inhibitors, including MRTX-1133, which was shown to be highly potent against KRAS G12D signaling. MRTX-1133 had approximately 40 and 400 times less inhibitory potency against G12C and G12V mutant KRAS, respectively, while no inhibition of WT KRAS was observed. The potency of PROTAC compound LC-2 targeting selective degradation of KRAS G12C was also tested using the Lumit pERK immunoassay, and a maximal decrease in RAS signaling was achieved. Lumit immunoassays provide a rapid, homogeneous platform for detecting signaling pathway activation and inhibition. Our results demonstrate that this bioluminescent technology can streamline the analysis of signaling pathways of interest, such as RAS-dependent pathways, and be used to identify much needed inhibitors. The results further imply that similar assay designs could be applied to other signaling pathway nodes.
Keywords: Bioluminescence; Immunoassay; KRAS mutants; MAPK signaling; Phospho ERK.
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