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Erythrocyte Membrane Coated Nanoparticle-Based Control Releasing Hydrogen Sulfide System Protects Ischemic Myocardium

Kai Huang, Shuyan Wen, Wenshuo Wang, Jinge Zhou, Jiechun Huang, Fangrui Wang, Liewen Pang, Yiqing Wang, Xiaotian Sun

2021Nanomedicine19 citationsDOI

Abstract

Aim: To construct a long circulatory and sustained releasing H2S system and explore its protective effects on myocardial ischemia and reperfusion (I/R) injury. Materials & methods: Red blood cell (RBC) membrane-coated, diallyl trisulfide (DATS)-carrying mesoporous iron oxide nanoparticles (MIONs) (RBC-DATS-MIONs) were prepared and characterized. Cytotoxicity and cellular uptake were studied in vitro, followed by in vivo assessment of safety, distribution and effect on cardiac function following I/R injury. Results: RBC-DATS-MIONs exhibited excellent biocompatibility, extended circulatory time and controlled-release of H2S in plasma and myocardium. They exhibited superior therapeutic effects on in vitro hypoxia/reoxygenation models and in vivo myocardial I/R models, which involved various mechanisms, including anti-apoptosis, anti-inflammatory and antioxidant activities. Conclusion: This work provides a new potential platform for best utilizing the protective effects of H2S by prolonging its releasing process.

Topics & Concepts

Hydrogen sulfideNanoparticleMembraneChemistryMaterials scienceBiophysicsChemical engineeringNanotechnologyBiologyBiochemistryEngineeringMetallurgySulfurSulfur Compounds in BiologyNeuroscience of respiration and sleepHydrogen's biological and therapeutic effects