School of Pharmacy and Pharmaceutical Sciences, Ulster University, Coleraine BT52 1SA, Northern Ireland, United Kingdom.
Department of Chemical Sciences, University of Catania, Piazza Università, 2, 95124 Catania CT, Italy.
Acta Biomater. 2018 Oct 15;80:327-340. doi: 10.1016/j.actbio.2018.09.005. Epub 2018 Sep 8.
Combination cancer chemotherapy provides an important treatment tool, both as an adjuvant and neoadjuvant treatment, this shift in focus from mono to combination therapies has led to increased interest in drug delivery systems (DDS). DDSs, such as polymersomes, are capable of encapsulating large amounts of multiple drugs with both hydrophilic and hydrophobic properties simultaneously, as well as offering a mechanism to combat multi drug resistant cancers and poor patient tolerance of the cytotoxic compounds utilised. In this article, we report the formulation and evaluation of a novel electroneutral polymersome capable of high encapsulation efficacies for multiple drugs (Doxorubicin, 5-Fluorouracil and leucovorin). The in-vivo biodistribution of the polymersome were established and they were found to accumulate largely in tumour tissue. Polymersome encapsulating the three chemotherapeutic drugs were assessed both in-vitro (BxPC-3 cell line) and in-vivo (following intratumoral and intravenous administration) and compared with the same concentration of the three drugs in solution. We report better efficacy and higher maximum tolerated dose for our combination drug loaded polymersomes in all experiments. Furthermore, intratumorally injected combination drug loaded polymersomes exhibited a 62% reduction in tumour volume after 13 days when compared with the free combination solutions. A smaller differential of 13% was observed for when treatment was administered intravenously however, importantly less cardiotoxicity was displayed from the polymersomal DDS. In this study, expression of a number of survival-relevant genes in tumours treated with the free chemotherapy combination was compared with expression of those genes in tumours treated with the polymersomes harbouring those drugs and the significance of findings is discussed. STATEMENT OF SIGNIFICANCE: The shift in focus from mono to combination chemotherapies has led to an increased interest in the role of drug delivery systems (DDS). Liposomes, although commercialized for mono therapy, have lower loading capacities and stability than their polymeric counterpart, polymersomes. Polymersomes are growing in prevalence as their advantageous properties are better understood and exploited. Here we present a novel polymersome for the encapsulation of three anticancer compounds. This is the first time this particular polymersome has been used to encapsulate these three compounds with both an in-vitro and in-vivo evaluation carried out. This work will be of interest to those in the field of combination therapy, drug delivery, drug toxicity, multidrug resistance, liposomes, DDS and polymersomes.
联合癌症化疗提供了一种重要的治疗工具,无论是作为辅助治疗还是新辅助治疗,这种从单一药物到联合药物治疗的重点转移,导致人们对药物传递系统(DDS)的兴趣增加。DDS 如聚合物囊泡,能够同时封装大量具有亲水性和疏水性的多种药物,并且提供了一种对抗多药耐药性癌症和患者对所用细胞毒性化合物耐受性差的机制。在本文中,我们报告了一种新型电中性聚合物囊泡的配方和评估,该聚合物囊泡能够高效封装多种药物(阿霉素、5-氟尿嘧啶和甲酰四氢叶酸)。聚合物囊泡的体内分布得到了确定,发现它们主要在肿瘤组织中积累。评估了封装三种化疗药物的聚合物囊泡的体外(BxPC-3 细胞系)和体内(肿瘤内和静脉内给药后)效果,并与相同浓度的三种游离药物溶液进行了比较。我们报告了在所有实验中,载药聚合物囊泡的疗效更好,最大耐受剂量更高。此外,与游离组合溶液相比,经肿瘤内注射的组合载药聚合物囊泡在 13 天后肿瘤体积减少了 62%。然而,当治疗通过静脉内给药时,观察到的差异较小,为 13%,但重要的是,聚合物囊泡药物传递系统显示出较少的心脏毒性。在这项研究中,比较了用游离化疗组合治疗的肿瘤中与那些用载有这些药物的聚合物囊泡治疗的肿瘤中生存相关基因的表达,并讨论了研究结果的意义。意义声明:从单一药物到联合化疗的重点转移,导致人们对药物传递系统(DDS)的作用产生了更大的兴趣。尽管脂质体已商业化用于单一治疗,但与聚合物脂质体相比,它们的载药量和稳定性较低。聚合物囊泡因其有利的特性而得到更好的理解和利用,因此越来越受欢迎。在这里,我们提出了一种用于封装三种抗癌化合物的新型聚合物囊泡。这是第一次将这种特殊的聚合物囊泡用于封装这三种化合物,并进行了体外和体内评估。这项工作将引起那些从事联合治疗、药物传递、药物毒性、多药耐药性、脂质体、DDS 和聚合物囊泡领域的人的兴趣。
