Tuning the Metabolic Stability of Visual Cycle Modulators Through Modification of an RPE65 Recognition Motif

Overview

Journal J Med Chem

Publisher American Chemical Society

Specialty Chemistry

Date 2023 Jun 6

PMID 37279401

Authors

Marco Bassetto

Jordan Zaluski

Bowen Li

Jianye Zhang

Mohsen Badiee

Philip D Kiser

Gregory P Tochtrop

Affiliations

Soon will be listed here.

Abstract

In the eye, the isomerization of all--retinal to 11--retinal is accomplished by a metabolic pathway termed the visual cycle that is critical for vision. RPE65 is the essential - isomerase of this pathway. Emixustat, a retinoid-mimetic RPE65 inhibitor, was developed as a therapeutic visual cycle modulator and used for the treatment of retinopathies. However, pharmacokinetic liabilities limit its further development including: (1) metabolic deamination of the γ-amino-α-aryl alcohol, which mediates targeted RPE65 inhibition, and (2) unwanted long-lasting RPE65 inhibition. We sought to address these issues by more broadly defining the structure-activity relationships of the RPE65 recognition motif via the synthesis of a family of novel derivatives, which were tested and for RPE65 inhibition. We identified a potent secondary amine derivative with resistance to deamination and preserved RPE65 inhibitory activity. Our data provide insights into activity-preserving modifications of the emixustat molecule that can be employed to tune its pharmacological properties.

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