1. Macrocycle synthesis strategy based on step-wise 'adding and reacting' three components enables screening of large combinatorial libraries†
- Author
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Gerardo Turcatti, Julien Bortoli Chapalay, Alessandro Angelini, Kaycie Deyle, Sangram S. Kale, Jonathan Vesin, Alessandro Zorzi, Carl Leonard Stenbratt, Christian Heinis, Laura Cendron, and Ganesh Kumar Mothukuri
- Subjects
Chemistry ,Drug development ,010405 organic chemistry ,Human plasma ,Settore BIO/10 - Biochimica ,General Chemistry ,Tripeptide ,Alkylation ,010402 general chemistry ,01 natural sciences ,Combinatorial chemistry ,0104 chemical sciences - Abstract
Macrocycles provide an attractive modality for drug development, but generating ligands for new targets is hampered by the limited availability of large macrocycle libraries. We have established a solution-phase macrocycle synthesis strategy in which three building blocks are coupled sequentially in efficient alkylation reactions that eliminate the need for product purification. We demonstrate the power of the approach by combinatorially reacting 15 bromoacetamide-activated tripeptides, 42 amines, and 6 bis-electrophile cyclization linkers to generate a 3780-compound library with minimal effort. Screening against thrombin yielded a potent and selective inhibitor (Ki = 4.2 ± 0.8 nM) that efficiently blocked blood coagulation in human plasma. Structure–activity relationship and X-ray crystallography analysis revealed that two of the three building blocks acted synergistically and underscored the importance of combinatorial screening in macrocycle development. The three-component library synthesis approach is general and offers a promising avenue to generate macrocycle ligands to other targets., Combination of three efficient chemical reactions allows for solution-phase synthesis of 3780 macrocycles and identification of potent thrombin inhibitor.
- Published
- 2020