Wesseler Fabian, Lohmann Stefan, Riege Daniel, Halver Jonas, Roth Aileen, Pichlo Christian, Weber Sabrina, Takamiya Masanari, Müller Eva, Ketzel Jana, Flegel Jana, Gihring Adrian, Rastegar Sepand, Bertrand Jessica, Baumann Ulrich, Knippschild Uwe, Peifer Christian, Sievers Sonja, Waldmann Herbert, Schade Dennis
Faculty of Chemistry and Chemical Biology, Technical University Dortmund, Otto-Hahn-Strasse 6, 44227Dortmund, Germany.
Compound Management and Screening Center COMAS, Max Planck Institute of Molecular Physiology (MPI), 44227Dortmund, Germany.
J Med Chem. 2022 Nov 24;65(22):15263-15281. doi: 10.1021/acs.jmedchem.2c01199. Epub 2022 Nov 8.
Phenotypic drug discovery (PDD) continues to fuel the research and development pipelines with first-in-class therapeutic modalities, but success rates critically depend on the quality of the underlying model system. Here, we employed a stem cell-based approach for the target-agnostic, yet pathway-centric discovery of small-molecule cytokine signaling activators to act as morphogens during development and regeneration. Unbiased screening identified triazolo[1,5-]quinazolines as a new-in-class in vitro and in vivo active amplifier of the bone morphogenetic protein (BMP) pathway. Cellular BMP outputs were stimulated via enhanced and sustained availability of BMP-Smad proteins, strictly dependent on a minimal BMP input. Holistic target deconvolution unveiled a unique mechanism of dual targeting of casein kinase 1 and phosphatidyl inositol 3-kinase isoforms as key effectors for efficient amplification of osteogenic BMP signaling. This work underscores the asset of PDD to discover unrecognized polypharmacology signatures, in this case significantly expanding the chemical and druggable space of BMP modulators.
表型药物发现(PDD)继续为研发管线注入具有一流治疗模式的药物,但成功率关键取决于基础模型系统的质量。在此,我们采用了一种基于干细胞的方法,以进行与靶点无关但以信号通路为中心的小分子细胞因子信号激活剂的发现,这些激活剂在发育和再生过程中可作为形态发生素。无偏向筛选确定三唑并[1,5 -]喹唑啉类化合物是一类新型的骨形态发生蛋白(BMP)信号通路的体内外活性增强剂。细胞BMP输出通过BMP - Smad蛋白的增强和持续可用性受到刺激,这严格依赖于最小的BMP输入。全面的靶点反卷积揭示了酪蛋白激酶1和磷脂酰肌醇3激酶异构体双重靶向的独特机制,这是有效放大成骨BMP信号的关键效应器。这项工作强调了PDD在发现未被认识的多药理学特征方面的价值——在这种情况下,显著扩展了BMP调节剂的化学和可成药空间。
