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Abstract 357: Characterization of KRas pathway inhibitors in 2D and 3D screening formats

The KRas/Raf/MEK signalling axis has been identified to play a critical role in the formation of cancer, resulting in several investigational new drugs targeting this pathway. Identification of appropriate drugs is hampered, however, by the assumption that a three-dimensional setting may be required...

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Published in:Cancer research (Chicago, Ill.) Ill.), 2022-06, Vol.82 (12_Supplement), p.357-357
Main Authors: Schaich, Katharina, Feger, Daniel, Siedentopf, Oliver, Ulrich, Sarah, Ehlert, Jan Erik
Format: Article
Language:English
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Summary:The KRas/Raf/MEK signalling axis has been identified to play a critical role in the formation of cancer, resulting in several investigational new drugs targeting this pathway. Identification of appropriate drugs is hampered, however, by the assumption that a three-dimensional setting may be required to observe significant inhibitory effects, possibly due to alternate gene expression and protein activity in such a “closer-to-physiology” setting. In order to explore that topic, in the current study we have made use of our 140 cell lines (CL)-2D proliferation panel (3 days incubation) and our 100CL-3D soft agar panel (> 7 days incubation). On these platforms, we have compared inhibitors targeting the KRas/Raf/MEK pathway via either KRas:SOS interaction (e.g. BI3406), the KRas mutation at G12C (e.g. AMG510), or Raf-kinase (e.g. AZ628) and MEK1/2-kinase activity (e.g. AZD6244). It showed that especially the Raf- and MEK kinase inhibitors exhibited significantly enhanced potency in the 3D soft agar setting in the majority of the cell lines tested. The other inhibitors also showed an increased potency under soft agar conditions, however, on clearly fewer cell lines and usually not as strongly. For all kinds of inhibitors tested, the most significant changes in potency were associated with enhanced efficacy as observed by stronger cell death induction. Differences may be attributable to three-dimensional growth, but also to the elongated duration of the soft agar assay. For selected conditions, we addressed this topic by analyzing the inhibitor impact on 3D spheroid growth after shorter incubation times. Our results show that 3D growth analysis either in the soft agar or spheroid setting clearly supports the development of KRas/Raf/MEK pathway inhibitors. Citation Format: Katharina Schaich, Daniel Feger, Oliver Siedentopf, Sarah Ulrich, Jan Erik Ehlert. Characterization of KRas pathway inhibitors in 2D and 3D screening formats [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 357.
ISSN:1538-7445
1538-7445
DOI:10.1158/1538-7445.AM2022-357