| Literature DB >> 33759400 |
Yong Zheng1, Paul M Stafford1, Kurt R Stover1, Darapaneni Chandra Mohan1, Mayuri Gupta1, Eric C Keske1, Paolo Schiavini1, Laura Villar1, Fan Wu1, Alexander Kreft1, Kiersten Thomas1, Elana Raaphorst1, Jagadeesh P Pasangulapati1, Siva R Alla1, Simmi Sharma1, Ramana R Mittapalli1, Irina Sagamanova1, Shea L Johnson1, Mark A Reed1,2, Donald F Weaver1,2,3.
Abstract
Indoleamine 2,3-dioxygenase 1 (IDO1) is a promising therapeutic target in cancer immunotherapy and neurological disease. Thus, searching for highly active inhibitors for use in human cancers is now a focus of widespread research and development efforts. In this study, we report the structure-based design of 2-(5-imidazolyl)indole derivatives, a series of novel IDO1 inhibitors which have been designed and synthesized based on our previous study using N1-substituted 5-indoleimidazoles. Among these, we have identified one with a strong IDO1 inhibitory activity (IC50 =0.16 μM, EC50 =0.3 μM). Structural-activity relationship (SAR) and computational docking simulations suggest that a hydroxyl group favorably interacts with a proximal Ser167 residue in Pocket A, improving IDO1 inhibitory potency. The brain penetrance of potent compounds was estimated by calculation of the Blood Brain Barrier (BBB) Score and Brain Exposure Efficiency (BEE) Score. Many compounds had favorable scores and the two most promising compounds were advanced to a pharmacokinetic study which demonstrated that both compounds were brain penetrant. We have thus discovered a flexible scaffold for brain penetrant IDO1 inhibitors, exemplified by several potent, brain penetrant, agents. With this promising scaffold, we provide herein a basis for further development of brain penetrant IDO1 inhibitors.Entities:
Keywords: IDO1 inhibitors; computational modelling; imidazole; structure-activity relationship
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Year: 2021 PMID: 33759400 DOI: 10.1002/cmdc.202100107
Source DB: PubMed Journal: ChemMedChem ISSN: 1860-7179 Impact factor: 3.466