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A Covalent Calmodulin Inhibitor as a Tool to Study Cellular Mechanisms of K-Ras-Driven Stemness

Sunday Okutachi, Ganesh babu Manoharan, Alexandros Kiriazis, Christina Laurini, Marie Catillon, Frank McCormick, Jari Yli‐Kauhaluoma, Daniel Abankwa

2021Frontiers in Cell and Developmental Biology28 citationsDOIOpen Access PDF

Abstract

Recently, the highly mutated oncoprotein K-Ras4B (hereafter K-Ras) was shown to drive cancer cell stemness in conjunction with calmodulin (CaM). We previously showed that the covalent CaM inhibitor ophiobolin A (OphA) can potently inhibit K-Ras stemness activity. However, OphA, a fungus-derived natural product, exhibits an unspecific, broad toxicity across all phyla. Here we identified a less toxic, functional analog of OphA that can efficiently inactivate CaM by covalent inhibition. We analyzed a small series of benzazulenones, which bear some structural similarity to OphA and can be synthesized in only six steps. We identified the formyl aminobenzazulenone 1 , here named Calmirasone1, as a novel and potent covalent CaM inhibitor. Calmirasone1 has a 4-fold increased affinity for CaM as compared to OphA and was active against K-Ras in cells within minutes, as compared to hours required by OphA. Calmirasone1 displayed a 2.5–4.5-fold higher selectivity for KRAS over BRAF mutant 3D spheroid growth than OphA, suggesting improved relative on-target activity. Importantly, Calmirasone1 has a 40–260-fold lower unspecific toxic effect on HRAS mutant cells, while it reaches almost 50% of the activity of novel K-RasG12C specific inhibitors in 3D spheroid assays. Our results suggest that Calmirasone1 can serve as a new tool compound to further investigate the cancer cell biology of the K-Ras and CaM associated stemness activities.

Topics & Concepts

HRASCalmodulinKRASMutantBiologyEGFR inhibitorsCovalent bondChemistryCalmodulin-binding proteinsCell biologyBiochemistryCancer researchMutationReceptorGeneEpidermal growth factor receptorEnzymeOrganic chemistryFungal Biology and ApplicationsMicrobial Natural Products and BiosynthesisMarine Sponges and Natural Products