Faculty of Chemistry, Materials and Bioengineering, Kansai University, Suita, Osaka 564-8680, Japan.
J Control Release. 2011 Oct 10;155(1):104-10. doi: 10.1016/j.jconrel.2010.11.008. Epub 2010 Nov 11.
Polymeric micelles, as drug delivery vehicles, must achieve specific targeting and high stability in the body for efficient drug delivery. We recently reported the preparation of polyanion-coated biodegradable polymeric micelles by coating positively charged polymeric micelles consisting of poly(L-lysine)-block-poly(L-lactide) (PLys-b-PLLA) AB diblock copolymers with anionic hyaluronic acid (HA) by polyion complex (PIC) formation. The obtained HA-coated micelles showed significantly higher stability in aqueous solution. In this study, to evaluate the HA-coated polymeric micelles as a drug carrier, model drug release from the micelles and cytotoxicity of the micelles were investigated. The HA-coated micelles showed sustained release of model drugs and low cytotoxicity. It is known that there are receptors for HA on liver sinusoidal endothelial cells (LSEC). Specific interactions of HA-coated micelles with LSECs and Kupffer cells were investigated and compared with polymeric micelles coated with other polyanionic polysaccharides, i.e., heparin (Hep) and carboxymethyl-dextran (CMDex). Although Hep-coated micelles and CMDex-coated micelles were incorporated into both Kupffer cells and LSECs, HA-coated micelles were taken up only into LSECs. These results suggest HA-coated micelles have potential utility as drug delivery vehicles exhibiting specific accumulation into LSECs.
作为药物递送载体的聚合物胶束,必须在体内实现特定的靶向和高稳定性,以实现有效的药物递送。我们最近报道了通过聚离子复合物(PIC)形成,用阴离子透明质酸(HA)对由聚 L-赖氨酸-嵌段-聚 L-乳酸(PLys-b-PLLA)AB 两亲嵌段共聚物组成的带正电荷的聚合物胶束进行包覆,制备了多糖包覆的可生物降解聚合物胶束。所得到的 HA 包覆胶束在水溶液中表现出显著更高的稳定性。在这项研究中,为了评估 HA 包覆的聚合物胶束作为药物载体,研究了模型药物从胶束中的释放和胶束的细胞毒性。HA 包覆的胶束表现出模型药物的持续释放和低细胞毒性。已知肝窦内皮细胞(LSEC)上有 HA 的受体。研究并比较了 HA 包覆胶束与其他带负电荷多糖,即肝素(Hep)和羧甲基-葡聚糖(CMDex)包覆的聚合物胶束与 LSEC 和枯否细胞的特异性相互作用。尽管 Hep 包覆胶束和 CMDex 包覆胶束都被内吞到枯否细胞和 LSEC 中,但只有 HA 包覆胶束被摄取到 LSEC 中。这些结果表明,HA 包覆的胶束作为具有向 LSEC 特异性聚集的药物递送载体具有潜在的应用价值。
