Litcius/Paper detail

Discovery of a Potent Dual Inhibitor of Wild-Type and Mutant Respiratory Syncytial Virus Fusion Proteins

Toru Yamaguchi-Sasaki, Seiken Tokura, Yuya Ogata, Takanori Kawaguchi, Yutaka Sugaya, Ryo Takahashi, Kanako Iwakiri, Tomoko Abe-Kumasaka, Ippei Yoshida, Kaho Arikawa, Hiroyuki Sugiyama, Kosuke Kanuma

2020ACS Medicinal Chemistry Letters16 citationsDOIOpen Access PDF

Abstract

A novel series of macrocyclic pyrazolo[1,5-a]pyrimidine derivatives as respiratory syncytial virus (RSV) fusion glycoprotein (F protein) inhibitors were designed and synthesized based on docking studies of acyclic inhibitors. This effort resulted in the discovery of several macrocyclic compounds, such as 12b, 12f, and 12h, with low nanomolar to subnanomolar activities against the wild-type RSV F protein A2. In addition, 12h showed a single-digit nanomolar potency against the previously reported drug-resistant mutant D486N. Molecular modeling and computational analyses suggested that 12h binds to the D486N mutant while maintaining a rigid bioactive conformation via macrocyclization and that it interacts with a hydrophobic cavity of the mutant using a new interaction surface of 12h. This report describes the rational design of macrocyclic compounds with dual inhibitory activities against wild-type and mutant RSV F proteins.

Topics & Concepts

MutantDocking (animal)Fusion proteinChemistryPyrimidineWild typeVirusDrug discoveryRational designMutant proteinBiochemistryStereochemistryBiologyVirologyRecombinant DNAMedicineGeneGeneticsNursingRespiratory viral infections researchVirology and Viral DiseasesPlant Virus Research Studies