Halide-selective, proton-coupled anion transport by phenylthiosemicarbazones

24 August 2021, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Phenylthiosemicarbazones (PTSCs) are proton-coupled anion transporters with pH-switchable behaviour known to be regulated by an imine protonation equilibrium. Previously, chloride/nitrate exchange by PTSCs was found to be inactive at pH 7.2 due to locking of the thiourea anion binding site by an intramolecular hydrogen bond, and switched ON upon imine protonation at pH 4.5. The rate-determining process of the pH switch, however, was not examined. We here develop a new series of PTSCs and demonstrate their conformational behaviour by X-ray crystallographic analysis and pH-switchable anion transport properties by liposomal assays. We report the surprising finding that these compounds are extremely selective for halides over oxyanions in membrane transport. Owing to the high chloride over nitrate selectivity, the pH-dependent chloride/nitrate exchange of PTSCs originates from the rate-limiting nitrate transport process being inhibited at neutral pH, whereas chloride transport remains efficient under both neutral and acidic conditions.

Keywords

Anion transport
Hydrogen bonding
Thiosemicarbazones
Switchable receptors

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