Huanchun Xing scite author profile

Messenger RNA (mRNA) has become one of the most potential drugs in recent years. However, efficient and safe delivery of fragile and easily degradable mRNA is a major challenge. Appropriate delivery system (DS) determines the final effect of mRNA. Cationic lipids play a crucial and decisive role in the entire DS, but also cause huge biosafety problems due to the high toxicity. In this study, a new DS for mRNA delivery that combines negatively charged phospholipids was developed in order to neutralize the positive charge and thus increase the safety. Further, the factors affecting mRNA transfection from cell to animal were investigated. The mRNA DS with optimum condition of lipid composition, proportions, structure, and transfection time was synthesized. Adding an appropriate amount of the anionic lipid to liposomes could increase the safety while maintaining the original transfection efficiency. For transporting mRNA in vivo, requirements regarding the mRNA encapsulation and releasing rate should be further considered to optimize DS design and preparation.

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Risk assessment based on dose-responsive and time-responsive genes to build PLS-DA models for exogenously induced lung injury

Huang

Zhang

Xing

et al. 2023

Ecotoxicology and Environmental Safety

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A fast-acting brain-targeted nano-delivery system with ultra-simple structure for brain emergency poisoning rescue

Li¹,

Zhang²,

Huang³

et al. 2023

Nanoscale

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Quantitative and qualitative analyses of metal ions in food and water by using a multicolor sensor array and chemometrics

et al. 2023

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Huanchun Xing

An in vitro nerve agent brain poisoning transwell model for convenient and accurate antidote evaluation

Negatively charged phospholipids doped liposome delivery system for mRNA with high transfection efficiency and low cytotoxicity

Risk assessment based on dose-responsive and time-responsive genes to build PLS-DA models for exogenously induced lung injury

A fast-acting brain-targeted nano-delivery system with ultra-simple structure for brain emergency poisoning rescue

Quantitative and qualitative analyses of metal ions in food and water by using a multicolor sensor array and chemometrics

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