具有高包封率和摄取效率的聚（β-氨基酯）多聚体纳米载体的合成与表征：细胞外条件的影响

Synthesis and characterization of poly (β-amino ester) polyplex nanocarrier with high encapsulation and uptake efficiency: impact of extracellular conditions.

作者信息

Gharatape Alireza, Sadeghi-Abandansari Hamid, Ghanbari Hossein, Basiri Mohsen, Faridi-Majidi Reza

机构信息

Advanced Laboratory of Nanocarriers Synthesis, Department of Medical Nanotechnology, School of Advanced Technologies in Medicine, Tehran University of Medical Sciences, Tehran, Iran.

Department of Medical Nanotechnology, School of Advanced Technologies in Medicine, Tehran University of Medical Sciences, Tehran, Iran.

出版信息

Nanomedicine (Lond). 2025 Jan;20(2):125-139. doi: 10.1080/17435889.2024.2440307. Epub 2024 Dec 16.

DOI:10.1080/17435889.2024.2440307

PMID:39676537

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11730802/

Abstract

BACKGROUND

Poly (β-amino Ester) nanocarriers show promise for gene therapy, but their effectiveness can be limited by the environment within the body. This study aims to understand how common cell culture media components affect optimized PBAE nanocarrier performance in gene delivery.

METHODS

Optimized PBAE was synthesized based on Michael addition reaction and characterized by different assays, this study employed techniques like DLS and TEM to characterize PBAE nanocarriers, followed by cellular uptake analysis (flow cytometry and confocal imaging) and evaluation of gene expression under different polymer/DNA ratio ratios and media conditions.

RESULTS

The nanocarriers exhibited size under 200 nm and surface positive charge, with high encapsulation efficiency (up to 95%). Cellular uptake, transfection efficiency, and cytotoxicity were evaluated. Flow cytometry analysis revealed high cellular uptake (over 77% at 1 hour and up to 95% after 3 hours) and good viability. Transfection efficiency reached up to 80% with 2 μg DNA, particularly at weight ratios of 60 and 90.

CONCLUSION

The study also identified factors affecting transfection efficiency, including serum concentration and antibiotics in the culture medium, highlighting the importance of optimizing these conditions for future applications.

摘要

背景

聚（β-氨基酯）纳米载体在基因治疗方面展现出前景，但其有效性可能受到体内环境的限制。本研究旨在了解常见细胞培养基成分如何影响优化后的聚（β-氨基酯）纳米载体在基因递送中的性能。

方法

基于迈克尔加成反应合成优化后的聚（β-氨基酯），并通过不同测定法进行表征，本研究采用动态光散射（DLS）和透射电子显微镜（TEM）等技术表征聚（β-氨基酯）纳米载体，随后进行细胞摄取分析（流式细胞术和共聚焦成像）以及在不同聚合物/DNA比例和培养基条件下的基因表达评估。

结果

纳米载体尺寸小于200纳米且表面带正电荷，具有高包封效率（高达95%）。对细胞摄取、转染效率和细胞毒性进行了评估。流式细胞术分析显示细胞摄取率高（1小时时超过77%，3小时后高达95%）且细胞活力良好。2微克DNA时转染效率高达80%，特别是在重量比为60和90时。

结论

该研究还确定了影响转染效率的因素，包括培养基中的血清浓度和抗生素，突出了为未来应用优化这些条件的重要性。

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具有高包封率和摄取效率的聚（β-氨基酯）多聚体纳米载体的合成与表征：细胞外条件的影响

Synthesis and characterization of poly (β-amino ester) polyplex nanocarrier with high encapsulation and uptake efficiency: impact of extracellular conditions.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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