Liu Juewen, Stace-Naughton Alison, Jiang Xingmao, Brinker C Jeffrey
Center for Micro-Engineered Materials, University of New Mexico, Albuquerque, New Mexico 87106, USA.
J Am Chem Soc. 2009 Feb 4;131(4):1354-5. doi: 10.1021/ja808018y.
Mixing liposomes with hydrophilic particles induces fusion of the liposome onto the particle surface. Such supported bilayers have been studied extensively as models of the cell membrane, while their applications in drug delivery have not been pursued. In this communication, we report liposome fusion on mesoporous particles as a synergistic means to simultaneously load and seal cargo within the porous core. We find fusion of a cationic lipid (DOTAP) on an anionic silica particle loads an anionic fluorescent dye (calcein) into the particle to a concentration exceeding 100x that in the surrounding medium. The loaded "protocell" particles are taken up efficiently by Chinese hamster ovary cells, where, due to a reduced pH within endosomal compartments, calcein is effectively released. Compared to some other nanoparticle systems, protocells provide a simple construct for cargo loading, sealing, delivery, and release. They promise to serve as useful vectors in nanomedicine.
将脂质体与亲水性颗粒混合会诱导脂质体融合到颗粒表面。这种支撑双层膜作为细胞膜模型已被广泛研究,但其在药物递送方面的应用尚未得到深入探索。在本通讯中,我们报道了脂质体在介孔颗粒上的融合,这是一种将货物同时装载并密封在多孔核心内的协同方法。我们发现阳离子脂质(DOTAP)在阴离子二氧化硅颗粒上的融合将阴离子荧光染料(钙黄绿素)加载到颗粒中,其浓度超过周围介质中浓度的100倍。负载的“原细胞”颗粒被中国仓鼠卵巢细胞有效摄取,在内体区室中由于pH降低,钙黄绿素被有效释放。与其他一些纳米颗粒系统相比,原细胞为货物的装载、密封、递送和释放提供了一种简单的结构。它们有望成为纳米医学中的有用载体。