-Sulfonylphenoxazines As Neuronal Calcium Ion Channel Blockers

Overview

Journal RSC Med Chem

Publisher Royal Society of Chemistry

Specialty Chemistry

Date 2024 Jul 19

PMID 39026639

Authors

Matthieu Schmit

Md Mahadhi Hasan

Yashad Dongol

Fernanda C Cardoso

Michael J Kuiper

Richard J Lewis

Peter J Duggan

Kellie L Tuck

Affiliations

Soon will be listed here.

Abstract

Neuropathic pain is a type of chronic pain, usually caused by nerve damage, that responds poorly to traditional pain therapies. The N-type calcium channel (Ca2.2) is a well-validated pharmacological target to treat this condition. In order to further improve the inhibition of the N-type calcium channel relative to previously described inhibitors, and also address their problematic instability in blood plasma, the development of -sulfonylphenoxazines as new calcium channel inhibitors was pursued. A series of -sulfonylphenoxazines bearing ammonium side chains were synthesised and tested for their ability to inhibit both Ca2.2 and Ca3.2 (T-type) neuronal ion channels. Compounds with low micromolar activity in Ca2.2 were identified, equivalent to the most effective reported for this class of bioactive, and calculations based on their physical and chemical characteristics suggest that the best performing compounds have a high likelihood of being able to penetrate the blood-brain barrier. Representative -sulfonylphenoxazines were tested for their stability in rat plasma and were found to be much more resilient than the previously reported -acyl analogues. These compounds were also found to be relatively stable in an liver microsome metabolism model, the first time that this has been investigated for this class of compound. Finally, molecular modelling of the Ca2.2 channel was used to gain an understanding of the mode of action of these inhibitors at a molecular level. They appear to bind in a part of the channel, in and above its selectivity filter, in a way that hinders its ability to undergo the conformational changes required to open and allow calcium ions to pass through.

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