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一种高容量的紫杉醇聚合物胶束:高剂量药物治疗对安全性及体内抗癌活性的影响。

A high capacity polymeric micelle of paclitaxel: Implication of high dose drug therapy to safety and in vivo anti-cancer activity.

作者信息

He Zhijian, Wan Xiaomeng, Schulz Anita, Bludau Herdis, Dobrovolskaia Marina A, Stern Stephan T, Montgomery Stephanie A, Yuan Hong, Li Zibo, Alakhova Daria, Sokolsky Marina, Darr David B, Perou Charles M, Jordan Rainer, Luxenhofer Robert, Kabanov Alexander V

机构信息

Center for Nanotechnology in Drug Delivery and Division of Molecular Pharmaceutics, Eshelman School of Pharmacy, University of North Carolina at Chapel Hill, NC, 27599, USA.

Professur für Makromolekulare Chemie, Department Chemie, Technische Universität Dresden, Mommsenstr. 4, 01069, Dresden, Germany.

出版信息

Biomaterials. 2016 Sep;101:296-309. doi: 10.1016/j.biomaterials.2016.06.002. Epub 2016 Jun 4.

DOI:10.1016/j.biomaterials.2016.06.002
PMID:27315213
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5035646/
Abstract

The poor solubility of paclitaxel (PTX), the commercially most successful anticancer drug, has long been hampering the development of suitable formulations. Here, we present translational evaluation of a nanoformulation of PTX, which is characterized by a facile preparation, extraordinary high drug loading of 50% wt. and PTX solubility of up to 45 g/L, excellent shelf stability and controllable, sub-100 nm size. We observe favorable in vitro and in vivo safety profiles and a higher maximum tolerated dose compared to clinically approved formulations. Pharmacokinetic analysis reveals that the higher dose administered leads to a higher exposure of the tumor to PTX. As a result, we observed improved therapeutic outcome in orthotopic tumor models including particularly faithful and aggressive "T11" mouse claudin-low breast cancer orthotopic, syngeneic transplants. The promising preclinical data on the presented PTX nanoformulation showcase the need to investigate new excipients and is a robust basis to translate into clinical trials.

摘要

紫杉醇(PTX)作为商业上最成功的抗癌药物,其溶解性差长期以来一直阻碍着合适制剂的开发。在此,我们展示了一种PTX纳米制剂的转化评估,该制剂具有制备简便、药物载量高达50%(重量)、PTX溶解度高达45 g/L、出色的货架稳定性以及可控的亚100 nm尺寸等特点。与临床批准的制剂相比,我们观察到其在体外和体内具有良好的安全性,且最大耐受剂量更高。药代动力学分析表明,给药剂量越高,肿瘤对PTX的暴露量越高。因此,我们在原位肿瘤模型中观察到了改善的治疗效果,包括特别逼真且侵袭性强的“T11”小鼠紧密连接蛋白低表达乳腺癌原位同基因移植模型。所展示的PTX纳米制剂有前景的临床前数据表明需要研究新的辅料,并且是转化为临床试验的坚实基础。

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