Cell Membrane-Camouflaged Nanoparticles Mediated Nucleic Acids Delivery

Lin, Yinshan; Guan, Xiaoling; Su, Jianfen; Chen, Sheng; Fu, Xihua; Xu, Xiaowei; Deng, Xiaohua; Chang, Jishuo; Qin, Aiping; Shen, Ao; Zhang, Lingmin

doi:10.2147/ijn.s433737

IJN

2023

DOI: 10.2147/ijn.s433737

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Cell Membrane-Camouflaged Nanoparticles Mediated Nucleic Acids Delivery

Yinshan Lin,

Xiaoling Guan,

Jianfen Su

et al.

Abstract: Nucleic acids have emerged as promising therapeutic agents for many diseases because of their potential in modulating gene expression. However, the delivery of nucleic acids remains a significant challenge in gene therapy. Although viral vectors have shown high transfection efficiency, concerns regarding teratogenicity or carcinogenicity have been raised. Non-viral vehicles, including cationic polymers, liposomes, and inorganic materials possess advantages in terms of safety, ease of preparation, and low cost.… Show more

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Cited by 5 publications

References 162 publications

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Li,

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Artificial Neutrophil-Mediated CEBPA-saRNA Delivery to Ameliorate ALI/ARDS

Zhang,

Chen,

Zheng

et al. 2024

ACS Appl. Mater. Interfaces

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Acute lung injury/acute respiratory distress syndrome (ALI/ARDS) still faces great challenges due to uncontrollable inflammation disorders, complicated causes of occurrence, and high mortality. Small-activating RNA (saRNA) has emerged as a novel and powerful gene-activating tool that may be useful in the treatment of ALI/ARDS. However, effective saRNA therapy is still challenged by the lack of effective and safe gene delivery vehicles. In this study, we develop a type of artificial neutrophil that is used to deliver saRNAs for ALI/ARDS treatment. The saRNA targeting CCAAT-enhancer binding protein α (CEBPA-saRNA) is complexed with H1 histone and further camouflaged with neutrophil membranes (NHR). Interestingly, we are the first to find that the H1 histone possesses the most effective binding capability to saRNA, compared to other subtypes. The prepared NHR shows excellent physicochemical properties, effective cellular uptake by the inflammatory M1 macrophages, and efficient activation of CEBPA, leading to significant M2 polarization. NHR shows an extended circulation lifetime and high-level accumulation in the inflamed lungs. The in vivo experiments indicate that NHR ameliorates ALI in a mouse model. This type of artificial neutrophil shows powerful inflammatory inhibition both in vitro and in vivo, which opens a new avenue for the treatment of ALI/ARDS.

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Cell Membrane-Camouflaged Nanoparticles Mediated Nucleic Acids Delivery

Cited by 5 publications

References 162 publications

Advances and prospects of RNA delivery nanoplatforms for cancer therapy

Advances and prospects of RNA delivery nanoplatforms for cancer therapy

Bioinspired black phosphorus delivers histone deacetylase inhibitor-induced synergistic therapy for lung cancer

Artificial Neutrophil-Mediated CEBPA-saRNA Delivery to Ameliorate ALI/ARDS

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