MoA Studies of the TEAD P-Site Binding Ligand MSC-4106 and Its Optimization to TEAD1-Selective Amide M3686

MoA Studies of the TEAD P-Site Binding Ligand MSC-4106 and Its Optimization to TEAD1-Selective Amide M3686

Taking the structural information into account, we were able to tune the TEAD selectivity for a specific chemotype. However, different TEAD selectivity profiles did not affect the compound potency or efficacy in the NCI-H226 viability assay. Amides based on or analogues showed improved viability eff...

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Veröffentlicht in:Journal of medicinal chemistry 2024-12
Hauptverfasser: Heinrich, Timo, Schwarz, Daniel, Petersson, Carl, Gunera, Jakub, Garg, Sakshi, Schneider, Richard, Keil, Marina, Grimmeisen, Lisa, Unzue Lopez, Andrea, Albers, Lisa, Schlesiger, Sarah, Gambardella, Alessia, Bomke, Joerg, Carswell, Emma, Schilke, Heike, Diehl, Patrizia, Doerfel, Benjamin, Musil, Djordje, Trivier, Elisabeth, Broome, Rebecca, Marshall, Sam, Balsiger, Alexander, Friedrich, Erik, Lemos, Ana R, Santos, Sandra P, Sousa, Pedro M F, Freire, Filipe, Bandeiras, Tiago M, Bortoluzzi, Alessio, Wienke, Dirk
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Sprache:eng
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Zusammenfassung:Taking the structural information into account, we were able to tune the TEAD selectivity for a specific chemotype. However, different TEAD selectivity profiles did not affect the compound potency or efficacy in the NCI-H226 viability assay. Amides based on or analogues showed improved viability efficacy compared with the corresponding acids. The amide exhibited AUC-driven efficacy in NCI-H226 xenograft models and had an improved 25-fold lower human dose prediction than . was also used in HDX-MS studies to aid in the understanding of the MoA of P-site binding TEAD inhibitors. Artificial P-site binders rigidify certain areas in the periphery of the transcription factor that seem to be crucial for cofactor interaction, whereas a native fatty acid increased the protein dynamics of cofactor-binding interfaces.
ISSN:0022-2623
1520-4804
1520-4804
DOI:10.1021/acs.jmedchem.4c01949