聚合物纳米颗粒介导的 microRNA 抑制和选择性剪接的递释。
Polymer nanoparticle-mediated delivery of microRNA inhibition and alternative splicing.
机构信息
Department of Biomedical Engineering, Yale University, 55 Prospect Street, MEC 414, New Haven, Connecticut 06511, United States.
出版信息
Mol Pharm. 2012 May 7;9(5):1481-8. doi: 10.1021/mp300081s. Epub 2012 Apr 18.
Abstract
The crux of current RNA-based therapeutics relies on association of synthetic nucleic acids with cellular RNA targets. Antisense oligonucleotide binding to mature microRNA and splicing junctions on pre-mRNA represent methods of gene therapy that respectively inhibit microRNA-mediated gene regulation and induce alternative splicing. We have developed biodegradable polymer nanoparticles, which are coated with cell-penetrating peptides, that can effectively deliver chemically modified oligonucleotide analogues to achieve these forms of gene regulation. We found that this nanoparticle system could block the activity of the oncogenic microRNA, miR-155, as well as modulate splicing to attenuate the expression of the proto-oncogene, Mcl-1. Regulation of these genes in human cancer cells reduced cell viability and produced pro-apoptotic effects. These findings establish polymer nanoparticles as delivery vectors for nonconventional forms of gene therapy activated by cellular delivery of RNA-targeted molecules, which have strong therapeutic implications.
摘要
当前基于 RNA 的治疗的关键在于将合成核酸与细胞 RNA 靶标结合。反义寡核苷酸与成熟 microRNA 和 pre-mRNA 剪接连接处结合,代表了分别抑制 microRNA 介导的基因调控和诱导选择性剪接的基因治疗方法。我们开发了具有生物降解性的聚合物纳米颗粒,其表面涂有穿透细胞的肽,可有效递送至实现这些形式的基因调控的化学修饰的寡核苷酸类似物。我们发现,该纳米颗粒系统可以阻断致癌 microRNA,miR-155 的活性,以及调节剪接以减弱原癌基因 Mcl-1 的表达。在人类癌细胞中这些基因的调控降低了细胞活力并产生了促凋亡作用。这些发现确立了聚合物纳米颗粒作为通过细胞递送来激活非传统形式的基因治疗的载体,这具有很强的治疗意义。
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