Department of Pharmacy - Drug Sciences, University of Bari "Aldo Moro", Bari, Italy; Department of Pharmaceutical Technology, Institute of Pharmacy, Leopold-Franzens-University of Innsbruck, Innsbruck, Austria.
Department of Pharmacy - Drug Sciences, University of Bari "Aldo Moro", Bari, Italy.
Eur J Pharm Biopharm. 2017 Oct;119:161-169. doi: 10.1016/j.ejpb.2017.06.011. Epub 2017 Jun 10.
The purpose of this study was to synthesize and characterize a novel thiolated glycogen, so-named S-preactivated thiolated glycogen, as a mucosal drug delivery systems and the assessment of its mucoadhesive properties. In this regard, glycogen-cysteine and glycogen-cysteine-2-mercaptonicotinic acid conjugates were synthesized. Glycogen was activated by an oxidative ring opening with sodium periodate resulting in reactive aldehyde groups to which cysteine was bound via reductive amination. The obtained thiolated polymer displayed 2203.09±200μmol thiol groups per gram polymer. In a second step, the thiol moieties of thiolated glycogen were protected by disulfide bond formation with the thiolated aromatic residue 2-mercaptonicotinic acid (2MNA). In vitro screening of mucoadhesive properties was performed on porcine intestinal mucosa using different methods. In particular, in terms of rheology investigations of mucus/polymer mixtures, the S-preactivated thiolated glycogen showed a 4.7-fold increase in dynamic viscosity over a time period of 5h, in comparison to mucus/Simulated Intestinal Fluid control. The S-preactivated polymer remained attached on freshly excised porcine mucosa for 45h. Analogous results were obtained with tensile studies demonstrating a 2.7-fold increase in maximum detachment force and 3.1- fold increase in total work of adhesion for the S-preactivated polymer compared to unmodified glycogen. Moreover, water-uptake studies showed an over 4h continuing weight gain for the S-preactivated polymer, whereas disintegration took place for the unmodified polymer within the first hour. Furthermore, even in the highest tested concentration of 2mg/ml the new conjugates did not show any cytotoxicity on Caco-2 cell monolayer using an MTT assay. According to these results, S-preactivated glycogen represents a promising type of mucoadhesive polymers useful for the development of various mucosal drug delivery systems.
本研究旨在合成和表征一种新型的巯基化糖原,即 S-预激活巯基化糖原,作为一种黏膜给药系统,并评估其黏膜黏附特性。在这方面,合成了糖原-半胱氨酸和糖原-半胱氨酸-2-巯基烟酸缀合物。通过使用高碘酸钠进行氧化开环反应,使糖原活化,产生反应性醛基,然后通过还原胺化将半胱氨酸结合到醛基上。得到的巯基化聚合物每克聚合物显示 2203.09±200μmol 巯基。在第二步中,通过形成二硫键将巯基化糖原的巯基部分与巯基芳香残基 2-巯基烟酸(2MNA)保护起来。使用不同的方法在猪肠黏膜上进行了黏膜黏附特性的体外筛选。特别是,在混合黏液/聚合物的流变学研究中,与黏液/模拟肠液对照相比,S-预激活巯基化糖原在 5 小时的时间内,动态黏度增加了 4.7 倍。S-预激活聚合物在新鲜切除的猪黏膜上附着 45 小时。类似的结果也在拉伸研究中得到证实,与未修饰的糖原相比,S-预激活聚合物的最大分离力增加了 2.7 倍,总黏附功增加了 3.1 倍。此外,吸水研究表明,S-预激活聚合物在 4 小时以上持续增重,而未修饰的聚合物在第一个小时内就发生了崩解。此外,即使在 2mg/ml 的最高测试浓度下,新的缀合物在 MTT 测定中对 Caco-2 细胞单层也没有显示出任何细胞毒性。根据这些结果,S-预激活的糖原代表了一种有前途的黏膜黏附聚合物类型,可用于开发各种黏膜给药系统。
