Issue 47, 2024

The effect of gem-difluorination on the conformation and properties of a model macrocyclic system

Abstract

Conformational control of drug candidates to engineer improved potency and ADME properties is an ongoing area of research. Macrocyclic rings tend to offer a greater degree of rigidity than non-cyclised small molecules, and, as a result they are perfect platforms to instil conformational controls. In this study, the difluoroalkoxyphenyl moiety is examined as a tool to alter the conformation of macrocycles. A fluorinated and non-fluorinated macrocyclic matched pair is compared in terms of conformation preferences and related ADME properties. The synthesised macrocycles are found to give similar major conformations exhibiting a trans amide in the macrocyclic backbone. However, for the fluorinated macrocycle, the major trans amide conformation is in equilibrium with a cis amide minor conformation, seen by 1H NMR in a 4 : 1 ratio of trans/cis. The conformational fits for the minor fluorinated isomer demonstrate the out of plane preference of the difluoroalkoxy system encouraging the amide within the macrocycle backbone to adopt a cis conformation. The fluorinated macrocycle was less metabolically stable compared to the non-fluorinated, postulated to be a result of the interconversion of trans amide to the cis amide, which potentially could be more readily metabolised.

Graphical abstract: The effect of gem-difluorination on the conformation and properties of a model macrocyclic system

Supplementary files

Article information

Article type
Edge Article
Submitted
13 Aug 2024
Accepted
01 Nov 2024
First published
06 Nov 2024
This article is Open Access

All publication charges for this article have been paid for by the Royal Society of Chemistry
Creative Commons BY-NC license

Chem. Sci., 2024,15, 19770-19776

The effect of gem-difluorination on the conformation and properties of a model macrocyclic system

T. J. Cogswell, R. J. Lewis, C. Sköld, A. Nordqvist, M. Ahlqvist and L. Knerr, Chem. Sci., 2024, 15, 19770 DOI: 10.1039/D4SC05424E

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