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Polythionoester Vesicle: An Efficient Polymeric Platform for Tuning H<sub>2</sub>S Release

Cuiqin Yang, Xuefeng Li, Qiang Yan

2022ACS Macro Letters14 citationsDOI

Abstract

Hydrogen sulfide (H2S) serves as a key gaseous regulator that not only directs many physiological activities, but also manifests therapeutic benefits to many diseases. Developing H2S vehicle platforms for its local delivery and long-acting release is important to achieve target gas therapy. Most of the known H2S-donating polymers contain labile thioester scaffolds within their structures that suffer from the issue of low gas releasing efficiency. Here we present the use of thionoester, a constitutional isomer of thioester, as the functional unit to build a structural platform of cysteine-triggered H2S donor polymer, polythionoester. Simple exchange of the sulfur and oxygen positions in the carbonyl sulfide scaffold makes the polythionoesters undergo a distinct mechanism of H2S production, which can largely improve the gas-releasing efficiency (>80%). Moreover, the thionoester-containing block copolymers can self-assemble into vesicles in an aqueous media. We discover that control over the size effect can adjust the vesicle disassembly rate and gas-releasing kinetics. A tunable half-life of H2S generation (2.6–9.8 h) can be accessed by tailoring the vesicle dimension. This allows such polymersomes to be potential as a gas nanodelivery system for long-lasting gas therapeutics.

Topics & Concepts

PolymersomeVesicleThioesterCarbonyl sulfidePolymerChemistryHydrogen sulfideNanotechnologyCombinatorial chemistryCopolymerMaterials scienceChemical engineeringSulfurOrganic chemistryAmphiphileBiochemistryEnzymeEngineeringMembraneSulfur Compounds in BiologyNanoplatforms for cancer theranosticsObstructive Sleep Apnea Research
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