Carbamate and N-Pyrimidine Mitigate Amide Hydrolysis: Structure-Based Drug Design of Tetrahydroquinoline IDO1 Inhibitors

Derun Li; Yongqi Deng; Abdelghani Achab; Indu Bharathan; Brett Andrew Hopkins; Wensheng Yu; Hongjun Zhang; Sulagna Sanyal; Qinglin Pu; Hua Zhou; Kun Liu; Jongwon Lim; Xavier Fradera; Charles A Lesburg; Alfred Lammens; Theodore A Martinot; Ryan D Cohen; Amy C Doty; Heidi Ferguson; Elliott B Nickbarg; Mangeng Cheng; Peter Spacciapoli; Prasanthi Geda; Xuelei Song; Nadya Smotrov; Pravien Abeywickrema; Christine Andrews; Chad Chamberlin; Omar Mabrouk; Patrick Curran; Matthew Richards; Peter Saradjian; J Richard Miller; Ian Knemeyer; Karin M Otte; Stella Vincent; Nunzio Sciammetta; Alexander Pasternak; David Jonathan Bennett; Yongxin Han

doi:10.1021/acsmedchemlett.0c00525

Carbamate and N-Pyrimidine Mitigate Amide Hydrolysis: Structure-Based Drug Design of Tetrahydroquinoline IDO1 Inhibitors

ACS Med Chem Lett. 2021 Feb 26;12(3):389-396. doi: 10.1021/acsmedchemlett.0c00525. eCollection 2021 Mar 11.

Authors

Derun Li¹, Yongqi Deng¹, Abdelghani Achab¹, Indu Bharathan¹, Brett Andrew Hopkins¹, Wensheng Yu¹, Hongjun Zhang¹, Sulagna Sanyal¹, Qinglin Pu¹, Hua Zhou¹, Kun Liu¹, Jongwon Lim¹, Xavier Fradera¹, Charles A Lesburg¹, Alfred Lammens², Theodore A Martinot¹, Ryan D Cohen³, Amy C Doty¹, Heidi Ferguson¹, Elliott B Nickbarg¹, Mangeng Cheng¹, Peter Spacciapoli¹, Prasanthi Geda¹, Xuelei Song¹, Nadya Smotrov¹, Pravien Abeywickrema¹, Christine Andrews¹, Chad Chamberlin¹, Omar Mabrouk¹, Patrick Curran¹, Matthew Richards¹, Peter Saradjian¹, J Richard Miller¹, Ian Knemeyer¹, Karin M Otte¹, Stella Vincent¹, Nunzio Sciammetta¹, Alexander Pasternak¹, David Jonathan Bennett¹, Yongxin Han¹

Affiliations

¹ Departments of Discovery Chemistry, Pharmacokinetics, Pharmacodynamics, and Drug Metabolism, Computational and Structural Chemistry, Discovery Process Chemistry, Discovery Pharmaceutical Science, and Quantitative Biosciences, Merck & Co., Inc., 33 Avenue Louis Pasteur, Boston, Massachusetts 02115, United States.
² Proteros Biostructures GmbH, Bunsenstraße 7a, D-82152 Planegg-Martinsried, Germany.
³ Analytical Research & Development, Merck & Co., Inc., 126 East Lincoln Avenue, Rahway, New Jersey 07065 United States.

Abstract

Indoleamine-2,3-dioxygenase-1 (IDO1) has emerged as an attractive target for cancer immunotherapy. An automated ligand identification system screen afforded the tetrahydroquinoline class of novel IDO1 inhibitors. Potency and pharmacokinetic (PK) were key issues with this class of compounds. Structure-based drug design and strategic incorporation of polarity enabled the rapid improvement on potency, solubility, and oxidative metabolic stability. Metabolite identification studies revealed that amide hydrolysis in the D-pocket was the key clearance mechanism for this class. Strategic survey of amide isosteres revealed that carbamates and N-pyrimidines, which maintained exquisite potencies, mitigated the amide hydrolysis issue and led to an improved rat PK profile. The lead compound 28 is a potent IDO1 inhibitor, with clean off-target profiles and the potential for quaque die dosing in humans.