Functional investigation of a new targeting gene delivery system of miRNA-34a nano-complexes into prostate cancer cell lines
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摘要: 目的 通过构建具有前列腺癌细胞特异性靶向作用的基因载体适配体——聚乙二醇-聚酰胺-胺(APT-PEG-PAMAM),携带具有抗前列腺癌增殖作用的基因miRNA-34a,考察载体系统的转染效率及其对前列腺癌细胞的抑制作用。 方法 运用核磁共振(NMR)鉴定APT-PEG-PAMAM基因载体的结构;利用粒径电位仪对APT-PEG-PAMAM/miRNA纳米复合物进行表征;利用基因转染实验考察APT-PEG-PAMAM/miRNA纳米复合物在前列腺癌细胞(PC3和LNCaP)上的表达效果;利用CCK-8细胞增殖抑制实验考察APT-PEG-PAMAM/miRNA-34a对前列腺癌细胞的抑制作用。 结果 通过结构鉴定确定APT-PEG-PAMAM合成成功。定性、定量转染效率实验证明,经APT进一步修饰后,对LNCaP细胞转染效率显著增加,证明APT的靶向作用。CCK-8细胞增殖实验证明,APT-PEG-PAMAM/miRNA-34a对前列腺癌细胞具有抑制作用。 结论 APT-PEG-PAMAM/miRNA-34a有望成为今后靶向治疗前列腺癌的基因药物。Abstract: Objective To construct a gene delivery carrier with aptamer-polyethylene glycol-dendrimer-polyamidoamine (APT-PEG-PAMAM), forming nanoparticles to specifically target prostate cancer cell lines, carrying prostate cancer cell proliferative suppressor microRNA: miRNA-34a. We investigated the transfection efficiency of this gene delivery system as well as functionally studied its inhibitory effect on prostate cancer (PCa) cell proliferation. Methods The construction of APT-PEG-PAMAM gene carrier was identified and confirmed by nuclear magnetic resonance (NMR). The nano-complex sizes and zeta potential of APT-PEG-PAMAM gene carrier complexes were measured by zeta sizer. The efficiency of gene transfection of APT-PEG-PAMAM / miRNA nano-complexes were investigated by measuring the expression miRNA-34a in prostate cancer cells (PC3 and LNCaP);the PCa specific cell proliferation inhibition of APT-PEG-PAMAM / miRNA-34a nano-complexes were investigated by measuring CCK-8 cell proliferation inhibition experiments by comparing with APT-PEG-PAMAM and APT-PEG-PAMAM / miRNA-34a nano-complexes. Results NMR Results demonstrated that APT-PEG-PAMAM / miRNA-34a nano-complexes were successfully synthesized by structural identification. Qualitative and quantitative transfection efficiency experiments data show that the cellular uptake of vectors were concentration-dependent, after the APT further modified it significantly and increased the LNCaP cell transfection efficiency and specificity of PCa cells targeting ability. CCK8 cell proliferation assay data indicated that APT-PEG-PAMAM/miRNA-34a has the anti-PCa cells effect. Conclusion APT-PEG-PAMAM/miRNA-34a may prove to see its efficacy for near future in pre-clinical and clinical study on the treatment of PCa.
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Key words:
- microRNA /
- polyamidoamine /
- cancer targeting /
- prostatic cancer /
- gene vector
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