自噬抑制聚合物作为一种有效的非病毒癌症基因治疗载体，具有内在的凋亡致敏能力。

Autophagy-inhibiting polymer as an effective nonviral cancer gene therapy vector with inherent apoptosis-sensitizing ability.

作者信息

Wang Jiafeng, Zhou Xuefei, Wang Huifang, Xiao Qian, Ding Kefeng, Dong Xue, Xu Shufeng, Shen Bo, Sun Jihong, Zhou Zhuxian, Tang Jianbin, Liu Xiangrui, Shen Youqing

机构信息

Key Laboratory of Biomass Chemical Engineering of Ministry of Education and Center for Bionanoengineering, College of Chemical and Biological Engineering, Zhejiang University, Hangzhou, 310027, China.

Department of Colorectal Surgery, The Second Affiliated Hospital of Zhejiang University School of Medicine, Hangzhou, 310009, China; Cancer Institute (Key Laboratory of Cancer Prevention and Intervention, China National Ministry of Education, Key Laboratory of Molecular Biology in Medical Sciences, Zhejiang Province, China; The Second Affiliated Hospital of Zhejiang University School of Medicine, Hangzhou, 310009, China.

出版信息

Biomaterials. 2020 Oct;255:120156. doi: 10.1016/j.biomaterials.2020.120156. Epub 2020 May 31.

DOI:10.1016/j.biomaterials.2020.120156

PMID:32505754

Abstract

Conventionally, polycations are pharmacological inert used as nonviral gene delivery vectors with the sole function of compacting and protecting nucleic acids. Here, the first autophagy-inhibiting cationic polymer delivering plasmid DNA (pDNA) encoding TRAIL (tumor necrosis factor-related apoptosis-inducing ligand) is prepared for cancer gene therapy. The copolymerization of methacryloyl chloroquine (MACQ) with 2-(dimethylamino)ethyl methacrylate (DMAEMA) not only improves transfection efficacy through hydrophobic modification, but also endows the copolymer with autophagy-blocking capability, which further sensitizes cancer cells to TRAIL induced apoptosis. Importantly, the designed copolymer shows efficient TRAIL expression, autophagy inhibition and enhances TRAIL-induced apoptosis in an autophagy-dependent manner. In contrast, TRAIL gene delivered by the autophagy-blocking-deficient control copolymer without the chlorine atom presents weaker antitumor efficacy, although expressing a similar amount of therapeutic TRAIL protein. Thus, this study demonstrates a conceptually new approach in which the therapeutic outcome of the delivered gene can be inherently strengthened by the delivery vehicle with intrinsic pharmacological activity.

摘要

传统上，聚阳离子作为非病毒基因传递载体在药理学上是惰性的，其唯一功能是压缩和保护核酸。在此，制备了第一种用于癌症基因治疗的自噬抑制阳离子聚合物，用于递送编码TRAIL（肿瘤坏死因子相关凋亡诱导配体）的质粒DNA（pDNA）。甲基丙烯酰氯喹啉（MACQ）与甲基丙烯酸2-（二甲氨基）乙酯（DMAEMA）的共聚不仅通过疏水修饰提高了转染效率，还赋予了共聚物自噬阻断能力，这进一步使癌细胞对TRAIL诱导的凋亡敏感。重要的是，所设计的共聚物显示出高效的TRAIL表达、自噬抑制，并以自噬依赖的方式增强TRAIL诱导的凋亡。相比之下，由缺乏氯原子的自噬阻断缺陷对照共聚物递送的TRAIL基因，尽管表达了相似量的治疗性TRAIL蛋白，但抗肿瘤效果较弱。因此，本研究展示了一种概念上全新的方法，即具有内在药理活性的递送载体可固有地增强所递送基因的治疗效果。

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自噬抑制聚合物作为一种有效的非病毒癌症基因治疗载体，具有内在的凋亡致敏能力。

Autophagy-inhibiting polymer as an effective nonviral cancer gene therapy vector with inherent apoptosis-sensitizing ability.

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