用于基因递送系统的高渗氧化蔗糖交联聚乙烯亚胺

Highly Osmotic Oxidized Sucrose-Crosslinked Polyethylenimine for Gene Delivery Systems.

作者信息

Park Jaehong, Kim Kyusik, Jeong Sohee, Lee Migyeom, Kim Tae-Il

机构信息

Department of Biosystems & Biomaterials Science and Engineering, College of Agriculture and Life Sciences, Seoul National University, 1 Gwanak-ro, Gwanak-gu, Seoul 08826, Korea.

Department of Agriculture, Forestry and Bioresources, College of Agriculture and Life Sciences, Seoul National University, 1 Gwanak-ro, Gwanak-gu, Seoul 08826, Korea.

出版信息

Pharmaceutics. 2021 Jan 11;13(1):87. doi: 10.3390/pharmaceutics13010087.

DOI:10.3390/pharmaceutics13010087

PMID:33440768

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7826834/

Abstract

In this work, highly osmotic oxidized sucrose-crosslinked polyethylenimine (SP2K) polymers were developed for gene delivery systems, and the transfection mechanism is examined. First, periodate-oxidized sucrose and polyethylenimine 2K (PEI2K) were crosslinked with various feed ratios via reductive amination. The synthesis was confirmed by H NMR and FTIR. The synthesized SP2K polymers could form positively charged (~40 mV zeta-potential) and nano-sized (150-200 nm) spherical polyplexes with plasmid DNA (pDNA). They showed lower cytotoxicity than PEI25K but concentration-dependent cytotoxicity. Among them, SP2K7 and SP2K10 showed higher transfection efficiency than PEI25K in both serum and serum-free conditions, revealing the good serum stability. It was found that SP2K polymers possessed high osmolality and endosome buffering capacity. The transfection experiments with cellular uptake inhibitors suggest that the transfection of SP2K polymers would progress by multiple pathways, including caveolae-mediated endocytosis. It was also thought that caveolae-mediated endocytosis of SP2K polyplexes would be facilitated through cyclooxygenase-2 (COX-2) expression induced by high osmotic pressure of SP2K polymers. Confocal microscopy results also supported that SP2K polyplexes would be internalized into cells via multiple pathways and escape endosomes efficiently via high osmolality and endosome buffering capacity. These results demonstrate the potential of SP2K polymers for gene delivery systems.

摘要

在本研究中，开发了用于基因递送系统的高渗氧化蔗糖交联聚乙烯亚胺（SP2K）聚合物，并对其转染机制进行了研究。首先，通过还原胺化反应使高碘酸盐氧化的蔗糖与聚乙烯亚胺2K（PEI2K）以不同的进料比交联。通过核磁共振氢谱（H NMR）和傅里叶变换红外光谱（FTIR）对合成进行了确认。合成的SP2K聚合物可与质粒DNA（pDNA）形成带正电（ζ电位约为40 mV）且纳米尺寸（150 - 200 nm）的球形多聚体。它们表现出比PEI25K更低的细胞毒性，但具有浓度依赖性细胞毒性。其中，SP2K7和SP2K10在血清和无血清条件下均表现出比PEI25K更高的转染效率，显示出良好的血清稳定性。研究发现，SP2K聚合物具有高渗透压和内体缓冲能力。使用细胞摄取抑制剂进行的转染实验表明，SP2K聚合物的转染将通过多种途径进行，包括小窝介导的内吞作用。还认为，SP2K聚合物的高渗透压诱导的环氧合酶 - 2（COX - 2）表达将促进SP2K多聚体的小窝介导的内吞作用。共聚焦显微镜结果也支持SP2K多聚体将通过多种途径内化到细胞中，并通过高渗透压和内体缓冲能力有效地逃离内体。这些结果证明了SP2K聚合物在基因递送系统中的潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c72e/7826834/547c94ff0fb1/pharmaceutics-13-00087-g001.jpg

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用于基因递送系统的高渗氧化蔗糖交联聚乙烯亚胺

Highly Osmotic Oxidized Sucrose-Crosslinked Polyethylenimine for Gene Delivery Systems.

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