Department of Pediatrics, Ludwig-Maximilians-University Munich, 80337 Munich, Germany; Department of Pharmacy, Free University of Berlin, 14166 Berlin, Germany.
Biomaterials. 2010 Apr;31(10):2903-11. doi: 10.1016/j.biomaterials.2009.12.035. Epub 2009 Dec 31.
Molecular conjugates comprising targeting ligands hold great promise for site-specific gene delivery to distant tumors and individual organs including the lung. Here we show that prostaglandin I2 analogues can be used to improve gene transfer efficiency of polyethylenimine (PEI) gene vectors on bronchial and alveolar epithelial cells in vitro and lungs of mice in vivo. Prostacyclin (IP1) receptor expression was confirmed in pulmonary epithelial cell lines by western blot. Iloprost (ILO) and treprostinil (TRP), two prostaglandin I2 analogues, were conjugated to fluorescein-labeled BSA (FLUO-BSA) and compared for IP1 receptor binding/uptake in different lung cell lines. Binding of FLUO-BSA-ILO was 2-4-fold higher than for FLUO-BSA-TRP and could be specifically inhibited by free ILO and IP1 receptor antagonist CAY10449. Internalization of FLUO-BSA-ILO was confirmed by confocal microscopy. Molecular conjugates of PEI and ILO (PEI-g-ILO) were synthesized with increasing coupling degree (F(ILO) (ILO:PEI) = 2, 5, 8, 16) and analyzed for DNA binding, particle formation and transfection efficiency. At optimized conditions (N/P 4, F(ILO) = 5), gene expression using PEI-g-ILO was significantly up to 46-fold higher than for PEI gene vectors and specifically inhibited by CAY10449. Gene expression in the lungs of mice after aerosol delivery was 14-fold higher with PEI-g-ILO F(ILO) = 5 than for PEI. We suggest that targeting of IP1 receptor using ILO represents a promising approach to improve pulmonary gene transfer.
包含靶向配体的分子缀合物为将基因递送到远处的肿瘤和包括肺在内的单个器官的特定部位提供了巨大的希望。在这里,我们表明前列腺素 I2 类似物可用于提高多聚乙烯亚胺 (PEI) 基因载体在体外支气管和肺泡上皮细胞以及体内小鼠肺部的基因转移效率。通过 Western blot 确认了肺上皮细胞系中前列腺素环加氧酶 (IP1) 受体的表达。两种前列腺素 I2 类似物前列环素 (IP1) 和曲前列环素 (TRP) 与荧光素标记的 BSA (FLUO-BSA) 缀合,并比较了它们在不同肺细胞系中 IP1 受体的结合/摄取。FLUO-BSA-ILO 的结合是 FLUO-BSA-TRP 的 2-4 倍,可以被游离的 ILO 和 IP1 受体拮抗剂 CAY10449 特异性抑制。通过共聚焦显微镜证实了 FLUO-BSA-ILO 的内化。用增加的偶联度 (F(ILO) (ILO:PEI) = 2、5、8、16) 合成了 PEI 和 ILO 的分子缀合物 (PEI-g-ILO),并分析了 DNA 结合、颗粒形成和转染效率。在优化条件下 (N/P 4、F(ILO) = 5),使用 PEI-g-ILO 的基因表达比 PEI 基因载体高 46 倍,并且可以被 CAY10449 特异性抑制。PEI-g-ILO F(ILO) = 5 经气溶胶递送后在小鼠肺部的基因表达比 PEI 高 14 倍。我们认为使用 ILO 靶向 IP1 受体是提高肺基因转移的一种很有前途的方法。
