Biomaterials Group, CSIR-Indian Institute of Chemical Technology, Uppal Road, Hyderabad-500007, India.
CSIR-Centre for Cellular & Molecular Biology, Hyderabad-500007, India.
Nanoscale. 2017 Jan 19;9(3):1201-1212. doi: 10.1039/c6nr07532k.
Despite significant recent progress in the area of translational genomics of neuroblastoma, the overall survival rates for children with high-risk NB continue to be not more than 5 years due to tumor relapse and/or drug-resistant tumors. Herein we report on the development of a neuroblastoma targeting nanometric (130-150 nm) circulation stable liposomal system prepared from a novel nipecotic acid-derived cationic amphiphile (NACA). The size ranges of liposomes (130-150 nm) were confirmed by both dynamic light scattering and transmission electron microscopy. The findings in the gel electrophoresis assay revealed that siRNAs encapsulated within the liposomes of NACA (with 90% entrapment efficiency) are protected from attack by RNase. Cellular uptake experiments using FAM-siRNA loaded liposomes of NACA showed the liposomal entry in human neuroblastoma cells (IMR-32) to be mediated via the GABA receptor. CDC20siRNA-loaded liposomes of NACA caused significantly higher CDC20 gene silencing efficiency in IMR-32 cells compared to CDC20 gene knockdown efficiency mediated by CDC20siRNA-loaded control non-targeting liposomes (NTL). The findings in the annexin-V binding based flow cytometric apoptosis assay and MTT-based cellular cytotoxicity assay support the notion that pronounced (80%) neuroblastoma cell death upon treatment with CDC20siRNA & PTX co-loaded liposomes of NACA presumably originates from enhanced apoptosis of cells. Importantly, intravenously administered CDC20siRNA & PTX co-loaded liposomes of NACA significantly inhibited growth of xenografted human neuroblastoma in athymic nude mice. The presently disclosed strategy of co-delivering potent anticancer siRNA and small molecule chemotherapeutics using liposomes of NACA opens a new door for combating the dreaded disease of neuroblastoma.
尽管神经母细胞瘤转化基因组学领域取得了重大进展,但由于肿瘤复发和/或耐药肿瘤,高危 NB 儿童的总体生存率仍不超过 5 年。在此,我们报告了一种神经母细胞瘤靶向纳米(130-150nm)循环稳定脂质体系统的开发,该系统由一种新型的烟碱酸衍生的阳离子两亲物(NACA)制备而成。脂质体的大小范围(130-150nm)通过动态光散射和透射电子显微镜得到证实。凝胶电泳试验的结果表明,包裹在 NACA 脂质体中的 siRNA(包封效率为 90%)免受 RNase 的攻击。使用负载有 NACA 的 FAM-siRNA 的脂质体进行细胞摄取实验表明,脂质体通过 GABA 受体进入人神经母细胞瘤细胞(IMR-32)。与负载 CDC20siRNA 的对照非靶向脂质体(NTL)介导的 CDC20 基因敲低效率相比,负载 CDC20siRNA 的 NACA 脂质体导致 IMR-32 细胞中 CDC20 基因沉默效率显著提高。基于膜联蛋白-V 结合的流式细胞术凋亡试验和 MTT 基于细胞毒性试验的结果支持这样的观点,即在用 CDC20siRNA 和 PTX 共负载的 NACA 脂质体处理后,神经母细胞瘤细胞发生明显的(80%)细胞死亡可能源于细胞凋亡的增强。重要的是,静脉内给予 CDC20siRNA 和 PTX 共负载的 NACA 脂质体显著抑制了裸鼠异种移植人神经母细胞瘤的生长。本研究中使用 NACA 脂质体共递送有效抗癌 siRNA 和小分子化疗药物的策略为治疗神经母细胞瘤这一可怕疾病开辟了新的途径。
