Fragment-based design of selective GPCR ligands guided by free energy simulations

Pierre Matricon; Duc Duy Vo; Zhan Guo Gao; Jan Kihlberg; Kenneth A. Jacobson; Jens Carlsson

Journal ArticleOPEN ACCESS

Fragment-based design of selective GPCR ligands guided by free energy simulations

Matricon P
Vo D
Gao Z
et al.

Chemical Communications (2021) 57(92) 12305-12308

DOI: 10.1039/d1cc03202j

12Citations

26Readers

Abstract

Fragment-based drug discovery relies on successful optimization of weakly binding ligands for affinity and selectivity. Herein, we explored strategies for structure-based evolution of fragments binding to a G protein-coupled receptor. Molecular dynamics simulations combined with rigorous free energy calculations guided synthesis of nanomolar ligands with up to >1000-fold improvements of binding affinity and close to 40-fold subtype selectivity.

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APA

Matricon, P., Vo, D. D., Gao, Z. G., Kihlberg, J., Jacobson, K. A., & Carlsson, J. (2021). Fragment-based design of selective GPCR ligands guided by free energy simulations. Chemical Communications, 57(92), 12305–12308. https://doi.org/10.1039/d1cc03202j

Fragment-based design of selective GPCR ligands guided by free energy simulations

Abstract

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