组织工程中的基因递送：一种用于共包封细胞和质粒DNA的光聚合物平台。

Gene delivery in tissue engineering: a photopolymer platform to coencapsulate cells and plasmid DNA.

作者信息

Quick Deborah J, Anseth Kristi S

机构信息

Department of Chemical Engineering, University of Colorado, Boulder, CO 80309, USA.

出版信息

Pharm Res. 2003 Nov;20(11):1730-7. doi: 10.1023/b:pham.0000003368.66471.6a.

DOI:10.1023/b:pham.0000003368.66471.6a

PMID:14661915

Abstract

PURPOSE

Toward the ultimate goal of developing an engineered tissue capable of mimicking complex natural healing processes, we have designed a photopolymer platform that enables simultaneous encapsulation of cells and plasmid DNA in degradable hydrogels. Photopolymerization enables spatial and temporal control of gel formation under physiological conditions, but the presence of photoinitiator radicals poses challenges for DNA photoencapsulation.

METHODS

The effects of photoinitiating conditions (ultraviolet light and photoinitiator radicals) on plasmid DNA were studied. Protection methods were identified. Plasmid DNA was photoencapsulated in photocrosslinked hydrogels, and the quantity and quality of the released DNA were assessed. Plasmid DNA was simultaneously entrapped (coencapsulated) with cells in hydrogels to assess in situ transfection.

RESULTS

Experiments showed that in the absence of other species, plasmid DNA was sensitive to photoinitiator radicals, but the addition of transfection agents and/or antioxidants greatly reduced DNA damage by radicals. Encapsulated plasmid DNA was released from degradable, photocrosslinked hydrogels in active forms (supercoiled and relaxed plasmids) with an overall -60% recovery. Released DNA was capable of transfecting both plated and encapsulated cells. Encapsulated cells expressed the encoded gene of the coencapsulated plasmid as the polymer degraded.

CONCLUSIONS

This photopolymerization platform allows for the creation of engineered tissues with enhanced control of cell behavior through the spatially and temporally controlled release of plasmid DNA.

摘要

目的

为了实现开发一种能够模拟复杂自然愈合过程的工程组织这一最终目标，我们设计了一种光聚合平台，该平台能够在可降解水凝胶中同时封装细胞和质粒DNA。光聚合能够在生理条件下对凝胶形成进行空间和时间控制，但光引发剂自由基的存在给DNA光封装带来了挑战。

方法

研究了光引发条件（紫外线和光引发剂自由基）对质粒DNA的影响。确定了保护方法。将质粒DNA光封装在光交联水凝胶中，并评估释放的DNA的数量和质量。将质粒DNA与细胞同时包裹（共封装）在水凝胶中以评估原位转染。

结果

实验表明，在没有其他物质的情况下，质粒DNA对光引发剂自由基敏感，但添加转染剂和/或抗氧化剂可大大减少自由基对DNA的损伤。封装的质粒DNA以活性形式（超螺旋和松弛质粒）从可降解的光交联水凝胶中释放出来，总体回收率为-60%。释放的DNA能够转染平板培养的细胞和封装的细胞。随着聚合物降解，封装的细胞表达共封装质粒的编码基因。

结论

这种光聚合平台能够通过对质粒DNA进行空间和时间控制释放，创建对细胞行为具有更强控制能力的工程组织。

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组织工程中的基因递送：一种用于共包封细胞和质粒DNA的光聚合物平台。

Gene delivery in tissue engineering: a photopolymer platform to coencapsulate cells and plasmid DNA.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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