Abstract
<div>Abstract<p>Oncogenic signaling through the MAPK/ERK pathway drives tumor progression in many cancers. Although targeted MAPK/ERK pathway inhibitors improve survival in selected patients, most tumors are resistant. New drugs could be identified in small-animal models that, unlike <i>in vitro</i> models, can address oral uptake, compound bioavailability, and toxicity. This requires pharmacologic conformity between human and model MAPK/ERK pathways and available phenotypic assays. In this study, we test if the conserved MAPK/ERK pathway in <i>Caenorhabditis elegans</i> could serve as a model for pharmacological inhibition and develop <i>in vivo</i> pipelines for high-throughput compound screens. Using fluorescence-based image analysis of vulva development as a readout for MAPK/ERK activity, we obtained excellent assay <i>Z</i>-scores for the MEK inhibitors trametinib (<i>Z</i> = 0.95), mirdametinib (<i>Z</i> = 0.93), and AZD8330 (<i>Z</i> = 0.87), as well as the ERK inhibitor temuterkib (<i>Z</i> = 0.86). The throughput was 800 wells per hour, with an average seed density of 25.5 animals per well. Readouts included drug efficacy, toxicity, and pathway specificity, which was tested against pathway activating upstream (<i>lin-15</i>)- and downstream (<i>lin-1</i>) mutants. To validate the model in a high-throughput setting, we screened a blinded library of 433 anticancer compounds and identified four MEK inhibitors among seven positive hits. Our results highlight a high degree of pharmacological conformity between <i>C. elegans</i> and human MAPK/ERK pathways, and the presented high-throughput pipeline may discover and characterize novel inhibitors <i>in vivo</i>.</p>Significance:<p>Many tumors depend on MAPK/ERK signaling to sustain growth, avoid cell death, and metastasize. We show that specific and clinically relevant MAPK/ERK signaling inhibitors can be discovered <i>in vivo</i> with a high-throughput screening pipeline in small animals.</p></div>
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