阳离子脂质体悬浮反转染小干扰RNA进入细胞的评价

Y. Hattori, Yuki Yoshiike, M. Honda, H. Ohno, H. Onishi
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引用次数: 9

摘要

小干扰RNA (siRNA)成功的基因沉默需要siRNA被有效地吸收到靶细胞中。目前使用阳离子脂质体体外转染siRNA的方法主要有两种:常规(正向;Fw)和反向(Rev)转染。为了研究一种利用阳离子脂质体高效转染siRNA的方法,我们比较了不同类型阳离子脂质体的w-转染和rev -转染方法对siRNA的转染效率。在转染中,siRNA/阳离子脂质体复合物(siRNA脂质体)被添加到预镀的细胞中。相比之下,rev转染是通过将细胞与siRNA脂丛在悬液中共孵育进行的。因此,基于1,2-二油基-3-三甲基丙烷(DOTAP)或基于阳离子胆固醇衍生物的脂质体转染rev可以通过有效的细胞关联将siRNA传递到细胞中,并且与转染w相比,诱导siRNA的基因沉默效果更好。此外,与转染v-相比,转染rev -没有显示出增加的细胞毒性。这些发现表明,在悬浮液中转染rev具有更好的潜力,可以有效地将siRNA转染到细胞中,并且毒性最小。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluation of Small Interfering RNA Delivery into Cells by Reverse Transfection in Suspension with Cationic Liposomes
Successful gene silencing by small interfering RNA (siRNA) requires efficient uptake of siRNA into targeted cells. For in vitro transfection of siRNA using cationic liposomes, two types of transfection method are currently being used: conventional (forward; Fw) and reverse (Rev) transfections. Here, to investigate an efficient siRNA transfection method using cationic liposomes, we compared the transfection efficiency of siRNA between Fw-transfection and Rev-transfection methods with various types of cationic liposomes. In Fw-transfection, siRNA/cationic liposomes complex (siRNA lipoplexes) was added to pre-plated cells. In contrast, Rev-transfection was performed by co-incubation of cells with siRNA lipoplexes in suspension. As a result, Rev-transfection with 1,2-dioleoyl-3-trimethylammonium-propane (DOTAP)-based or cationic cholesterol derivative-based liposomes could deliver siRNA into the cells via efficient cellular association, and induce an improved gene silencing effect by siRNA compared with Fw-transfection. Furthermore, Rev-transfection did not show increased cytotoxicity compared with Fw-transfection. These findings suggested that Rev-transfection in suspension has better potential for efficient transfection of siRNA into cells with minimal toxicity.
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