Structure-kinetic Relationships--an Overlooked Parameter in Hit-to-lead Optimization: a Case of Cyclopentylamines As Chemokine Receptor 2 Antagonists

Overview

Journal J Med Chem

Publisher American Chemical Society

Specialty Chemistry

Date 2013 Sep 14

PMID 24028535

Citations 16

Authors

Maris Vilums

Annelien J M Zweemer

Zhiyi Yu

Henk de Vries

Julia M Hillger

Hannah Wapenaar

Ilse A E Bollen

Farhana Barmare

Raymond Gross

Jeremy Clemens

Paul Krenitsky

Johannes Brussee

Dean Stamos

John Saunders

Laura H Heitman

Adriaan P IJzerman

Affiliations

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Abstract

Preclinical models of inflammatory diseases (e.g., neuropathic pain, rheumatoid arthritis, and multiple sclerosis) have pointed to a critical role of the chemokine receptor 2 (CCR2) and chemokine ligand 2 (CCL2). However, one of the biggest problems of high-affinity inhibitors of CCR2 is their lack of efficacy in clinical trials. We report a new approach for the design of high-affinity and long-residence-time CCR2 antagonists. We developed a new competition association assay for CCR2, which allows us to investigate the relation of the structure of the ligand and its receptor residence time [i.e., structure-kinetic relationship (SKR)] next to a traditional structure-affinity relationship (SAR). By applying combined knowledge of SAR and SKR, we were able to re-evaluate the hit-to-lead process of cyclopentylamines as CCR2 antagonists. Affinity-based optimization yielded compound 1 with good binding (Ki = 6.8 nM) but very short residence time (2.4 min). However, when the optimization was also based on residence time, the hit-to-lead process yielded compound 22a, a new high-affinity CCR2 antagonist (3.6 nM), with a residence time of 135 min.

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