Department of Pharmaceutical Sciences, University of Padua, Via F. Marzolo 5, 35131 Padua, Italy.
Eur J Pharm Sci. 2011 Apr 18;42(5):547-58. doi: 10.1016/j.ejps.2011.02.012. Epub 2011 Mar 1.
Two new anticancer polymer therapeutics were designed for tumour cell targeting. The bioconjugates were synthesised by pullulan derivatisation with either doxorubicin or doxorubicin and folic acid. Pullulan was activated by periodate oxidation and functionalised by reductive conjugation with cysteamine and 1.9 kDa PEG(NH(2))(2). The cysteamine thiol groups were conjugated to doxorubicin through a pH-sensitive hydrazone spacer while the pending PEG-NH(2) functions of one derivatised pullulan batch were conjugated to folic acid to obtain one of the two polymer therapeutics. The reaction intermediates and the final products were characterised by mass spectrometry, UV-vis analysis and reverse phase and gel permeation chromatography. The folic acid-free derivative [(NH(2) PEG)-Pull-(Cyst-Dox)] contained 6.3% (w/w) doxorubicin while the folic acid-doxorubicin-coupled derivative [(FA-PEG)-Pull-(Cyst-Dox)] contained 6% (w/w) doxorubicin and 4.3% (w/w) folic acid. Photon correlation spectroscopy showed that (NH(2) PEG)-Pull-(Cyst-Dox) and (FA-PEG)-Pull-(Cyst-Dox) assembled into particles of about 150 and 100 nm diameter, respectively. The two bioconjugates displayed similar drug release profiles either at pH 7.4 buffer or in plasma, where less than 20% of doxorubicin was released within three days. At pH 5.5, both conjugates underwent complete drug release in about 40 h. In vitro studies carried out with KB tumour cells over-expressing folic acid receptor showed that both free doxorubicin and (FA-PEG)-Pull-(Cyst-Dox) were rapidly taken up by the cells, while the internalisation of the non-folated derivative was significantly slower. Cell viability studies did not show relevant difference between the two bioconjugates. After 72 h of incubation with folic acid receptor non-expressing MCF7 cells, the IC(50) values of doxorubicin, (NH(2)PEG)-Pull-(Cyst-Dox) and (FA-PEG)-Pull-(Cyst-Dox) were 0.3 μM, 1.2 μM and 3.1 μM, respectively. After incubation with KB cells over-expressing folic acid receptor, the IC(50) values were 0.4 μM, 1.8 μM and 1.1 μM, respectively. Pharmacokinetic studies showed that 4 h after intravenous administration of the conjugates to Balb/c mice about 40% of the administered drug equivalent dose was present in the bloodstream while in the case of unconjugated doxorubicin, 80% of the drug was cleared within 30 min. These findings suggest that the novel doxorubicin-pullulan bioconjugates possess suitable properties for passive tumour targeting. On the other hand, folic acid conjugation has been found to have limited effect on selective cell up-take.
两种新的抗癌聚合物治疗药物被设计用于肿瘤细胞靶向。通过普鲁兰衍生物与阿霉素或阿霉素和叶酸的还原偶联,合成了生物缀合物。普鲁兰通过过碘酸盐氧化活化,并通过与半胱氨酸和 1.9 kDa PEG(NH(2))(2)的还原偶联进行功能化。半胱氨酸巯基通过 pH 敏感的腙间隔物与阿霉素缀合,而一个衍生普鲁兰批次的悬垂 PEG-NH(2)功能与叶酸缀合,以获得两种聚合物治疗药物之一。通过质谱、紫外-可见分析以及反相和凝胶渗透色谱法对反应中间体和最终产物进行了表征。叶酸游离衍生物[(NH(2)PEG)-Pull-(Cyst-Dox)]含有 6.3%(w/w)阿霉素,而叶酸-阿霉素偶联衍生物[(FA-PEG)-Pull-(Cyst-Dox)]含有 6%(w/w)阿霉素和 4.3%(w/w)叶酸。光子相关光谱表明,(NH(2)PEG)-Pull-(Cyst-Dox)和(FA-PEG)-Pull-(Cyst-Dox)分别组装成约 150 和 100nm 直径的颗粒。两种生物缀合物在 pH7.4 缓冲液或血浆中均显示出相似的药物释放曲线,在三天内释放的阿霉素不到 20%。在 pH5.5 下,两种缀合物在大约 40 小时内完成药物的完全释放。在过表达叶酸受体的 KB 肿瘤细胞中进行的体外研究表明,游离阿霉素和(FA-PEG)-Pull-(Cyst-Dox)都被细胞迅速摄取,而非叶酸化衍生物的内化则明显较慢。细胞活力研究未显示两种生物缀合物之间存在明显差异。在用不表达叶酸受体的 MCF7 细胞孵育 72 小时后,阿霉素、(NH(2)PEG)-Pull-(Cyst-Dox)和(FA-PEG)-Pull-(Cyst-Dox)的 IC(50)值分别为 0.3 μM、1.2 μM 和 3.1 μM。在用过表达叶酸受体的 KB 细胞孵育后,IC(50)值分别为 0.4 μM、1.8 μM 和 1.1 μM。药代动力学研究表明,在 Balb/c 小鼠静脉注射缀合物 4 小时后,约 40%的给予药物当量存在于血液中,而在未缀合的阿霉素的情况下,80%的药物在 30 分钟内被清除。这些发现表明,新型阿霉素-普鲁兰生物缀合物具有用于被动肿瘤靶向的合适特性。另一方面,已经发现叶酸缀合对选择性细胞摄取的影响有限。
