Department of Chemistry, Tongji University, 1239 Siping Road, Shanghai 200092, PR China.
Langmuir. 2012 Jul 24;28(29):10725-32. doi: 10.1021/la3021645. Epub 2012 Jul 13.
The fabrication of core-shell structural nanosilica@liposome nanocapsules as a drug delivery vehicle is reported. SiO(2) nanoparticles are encapsulated within liposomes by a W/O/W emulsion approach to form supramolecular assemblies with a core of colloidal particles enveloped by a lipid bilayer shell. A nanosilica core provides charge compensation and architectural support for the lipid bilayer, which significantly improves their physical stability. A preliminary application of these core-shell nanocapsules for hemoglobin (Hb) delivery is described. Through the H-bonding interaction between the hydroxyl groups on nanosilicas and the amino nitrogens of Hb, Hb-SiO(2) nanocomplexes in which the saturated adsorption amount of Hb on SiO(2) is 0.47 g g(-1) are coated with lipids to generate core-shell Hb-SiO(2)@liposome nanocapsules with mean diameters of 60-500 nm and Hb encapsulation efficiency of 48.4-87.9%. Hb-SiO(2)@liposome supramolecular nanovehicles create a mode of delivery that stabilizes the encapsulated Hb and achieves long-lasting release, thereby improving the efficacy of the drug. Compared with liposome-encapsulated Hb and Hb-loaded SiO(2) particles, such core-shell nanovehicles show substantially enhanced release performance of Hb in vitro. This finding opens up a new window of liposome-based formulations as drug delivery nanovehicles for widespread pharmaceutical applications.
本文报道了核壳结构纳米硅@脂质体纳米胶囊作为药物传递载体的制备方法。通过 W/O/W 乳液法将二氧化硅纳米颗粒包封在脂质体中,形成具有胶体颗粒核和脂质双层壳的超分子组装体。纳米硅核为脂质双层提供了电荷补偿和结构支撑,显著提高了它们的物理稳定性。初步应用这些核壳纳米胶囊进行血红蛋白(Hb)传递。通过纳米硅上的羟基与 Hb 上的氨基氮之间的氢键相互作用,将饱和吸附量为 0.47 g g(-1) 的 Hb-SiO(2)纳米复合物用脂质包覆,生成平均粒径为 60-500nm、Hb 包封效率为 48.4-87.9%的核壳 Hb-SiO(2)@脂质体纳米胶囊。Hb-SiO(2)@脂质体超分子纳米载体创造了一种传递方式,稳定了包封的 Hb 并实现了长效释放,从而提高了药物的疗效。与脂质体包封的 Hb 和负载 Hb 的 SiO(2)颗粒相比,这种核壳纳米载体在体外显示出 Hb 释放性能的显著提高。这一发现为基于脂质体的制剂作为药物传递纳米载体开辟了新的途径,有望在广泛的药物应用中得到应用。
