Chono Sumio, Li Shyh-Dar, Conwell Christine C, Huang Leaf
Division of Molecular Pharmaceutics, School of Pharmacy, University of North Carolina, 2316 Kerr Hall, 311 Pharmacy Lane, Chapel Hill, NC 27599, USA.
J Control Release. 2008 Oct 6;131(1):64-9. doi: 10.1016/j.jconrel.2008.07.006. Epub 2008 Jul 13.
We have developed a nanoparticle formulation [liposomes-protamine-hyaluronic acid nanoparticle (LPH-NP)] for systemically delivering siRNA into the tumor. The LPH-NP was prepared in a self-assembling process. Briefly, protamine and a mixture of siRNA and hyaluronic acid were mixed to prepare a negatively charged complex. Then, cationic liposomes were added to coat the complex with lipids via charge-charge interaction to prepare the LPH-NP. The LPH-NP was further modified by DSPE-PEG or DSPE-PEG-anisamide by the post-insertion method. Anisamide is a targeting ligand for the sigma receptor over-expressed in the B16F10 melanoma cells. The particle size, zeta potential and siRNA encapsulation efficiency of the formulation were approximately 115 nm, +25 mV and 90%, respectively. Luciferase siRNA was used to evaluate the gene silencing activity in the B16F10 cells, which were stably transduced with a luciferase gene. The targeted LPH-NP (PEGylated with ligand) silenced 80% of luciferase activity in the metastatic B16F10 tumor in the lung after a single i.v. injection (0.15 mg siRNA/kg). The targeted LPH-NP also showed very little immunotoxicity in a wide dose range (0.15-1.2 mg siRNA/kg), while the previously published formulation, LPD-NP (liposome-protamine-DNA nanoparticle), had a much narrow therapeutic window (0.15-0.45 mg/kg).
我们开发了一种纳米颗粒制剂[脂质体-鱼精蛋白-透明质酸纳米颗粒(LPH-NP)],用于将小干扰RNA(siRNA)全身递送至肿瘤。LPH-NP通过自组装过程制备。简要地说,将鱼精蛋白与siRNA和透明质酸的混合物混合,制备带负电荷的复合物。然后,加入阳离子脂质体,通过电荷-电荷相互作用用脂质包裹该复合物,以制备LPH-NP。通过后插入法用二硬脂酰磷脂酰乙醇胺-聚乙二醇(DSPE-PEG)或二硬脂酰磷脂酰乙醇胺-聚乙二醇-茴香酰胺(DSPE-PEG-茴香酰胺)对LPH-NP进行进一步修饰。茴香酰胺是在B16F10黑色素瘤细胞中过表达的σ受体的靶向配体。该制剂的粒径、ζ电位和siRNA包封效率分别约为115nm、+25mV和90%。使用荧光素酶siRNA评估在稳定转导荧光素酶基因的B16F10细胞中的基因沉默活性。单次静脉注射(0.15mg siRNA/kg)后,靶向LPH-NP(用配体聚乙二醇化)使肺转移B16F10肿瘤中的荧光素酶活性沉默80%。靶向LPH-NP在宽剂量范围(0.15-1.2mg siRNA/kg)内也显示出非常低的免疫毒性,而先前发表的制剂LPD-NP(脂质体-鱼精蛋白-DNA纳米颗粒)的治疗窗口则窄得多(0.15-0.45mg/kg)。