球晶的特性作为一种用于低分子量和高分子量药物的脂质载体。

Characterization of spherulites as a lipidic carrier for low and high molecular weight agents.

机构信息

Center for Pharmacogenetics, Department of Pharmaceutical Sciences, School of Pharmacy, University of Pittsburgh, 639 Salk Hall, Pittsburgh, Pennsylvania 15261, USA.

出版信息

Pharm Res. 2013 Jun;30(6):1525-35. doi: 10.1007/s11095-013-0990-y. Epub 2013 Apr 12.

DOI:10.1007/s11095-013-0990-y

PMID:23579481

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3654020/

Abstract

PURPOSE

To develop spherulite formulations to achieve high entrapment efficiency for both small and macromolecules as well as cell-type specific delivery.

METHODS

Spherulites of various compositions were prepared, and lipid-PEG was incorporated through post-insertion. Calcein and FITC-labeled albumin were employed as model drugs for small and macromolecules. The spherulites were characterized with respect to entrapment efficiency, size, structure, and release kinetics, and the morphology was examined via cryo-EM. Finally, SV119-decorated spherulites were examined for their selective uptake by cancer cells.

RESULTS

The spherulites are 170 ~ 290 nm in size. A loading efficiency of 55 ~ 60% can be consistently achieved for both calcein and albumin under optimized conditions. Cryo-EM shows the onion-like morphology consistent with the structure of multilamellar liposomes. A t(½) of 39.3 h and 69.7 h in cargo release in serum was observed before and after PEG decoration, and incorporation of SV119 led to selective delivery of rhodamine-labeled spherulites to PC-3 tumor cells.

CONCLUSIONS

Our optimized formulations may represent a platform with simple preparation approach, relatively small particle size, high drug loading efficiency for both low and high molecular weight agents, and slow release kinetics for selective delivery of various types of therapeutics to target cells.

摘要

目的

开发球晶制剂，以实现小分子和大分子以及细胞类型特异性递送的高包封效率。

方法

制备了各种组成的球晶，并通过后插入法掺入脂质-PEG。将钙黄绿素和 FITC 标记的白蛋白用作小分子和大分子的模型药物。根据包封效率、粒径、结构和释放动力学对球晶进行了表征，并通过冷冻 EM 检查了形态。最后，研究了 SV119 修饰的球晶对癌细胞的选择性摄取。

结果

球晶的粒径为 170~~290nm。在优化条件下，钙黄绿素和白蛋白的载药效率均能稳定达到 55%~~60%。冷冻 EM 显示洋葱状形态与多层脂质体的结构一致。PEG 修饰前后在血清中的货物释放 t(½)分别为 39.3 h 和 69.7 h，SV119 的掺入导致罗丹明标记的球晶选择性递送至 PC-3 肿瘤细胞。

结论

我们优化的制剂可能代表了一种具有简单制备方法、相对较小粒径、对低分子量和高分子量药物均具有高包封效率以及对各种治疗药物进行选择性递送至靶细胞的缓慢释放动力学的平台。

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