Hong Jung Wan, Lee In-Hyun, Kwak Young Hak, Park Young Taek, Sung Ha Chin, Kwon Ick Chan, Chung Hesson
Center for Chemoinformatics Research, Life Sciences Research Division, Korea Institute of Science and Technology, Hawolgok-dong, Sungbuk-gu, Seoul 136-791, Korea.
Mol Cancer Ther. 2007 Dec;6(12 Pt 1):3239-47. doi: 10.1158/1535-7163.MCT-07-0261.
Paclitaxel is indispensable in treating human cancers. Due to poor drug solubility and efflux systems in the gastrointestinal tract, peroral delivery of paclitaxel has been a significant challenge. We developed a mucoadhesive oral formulation (DHP107) that can directly and effectively deliver paclitaxel to intestinal endothelial cells without concomitant use of P-glycoprotein inhibitors. Here, we evaluated the tissue distribution of paclitaxel, the antitumor efficacy and the absorption mechanism of DHP107. DHP107, which contains 10 mg/mL of paclitaxel in a mixture of monoolein, tricarprylin, and Tween 80 was administered p.o. to female BALB/c mice at a 50 mg/kg dose. Diluted Taxol was administered via bolus tail-vein injection at 10 mg/kg as a control. Blood and tissue samples were harvested at various time points and analyzed by high-performance liquid chromatography. Tissue sections were observed using light microscopy after immunohistochemical and Oil Red O staining. By day 27, tumor volume after DHP107 and Taxol treatments was one-third of that in the untreated group. After p.o. administration, paclitaxel was widely distributed in various organs (T(max) = 2 h), especially liver, spleen, and lung. DHP107 was effectively absorbed through the intestinal lipid transport system. DHP107 changed spontaneously into <100-mum droplets and micelles in the intestine, which in turn adhered to mucoepithelial cells, were absorbed via lipid uptake mechanism, and formed lipid bodies in the epithelium. Paclitaxel in DHP107 was effectively absorbed through the gastrointestinal tract via lipid uptake mechanism and was distributed in various tissues. The detailed uptake mechanism is currently under investigation.
紫杉醇在治疗人类癌症方面不可或缺。由于其药物溶解度差以及胃肠道中的外排系统,口服紫杉醇一直是一项重大挑战。我们开发了一种粘膜粘附口服制剂(DHP107),它可以在不使用P-糖蛋白抑制剂的情况下直接有效地将紫杉醇递送至肠道内皮细胞。在此,我们评估了紫杉醇的组织分布、DHP107的抗肿瘤疗效及吸收机制。将含有10mg/mL紫杉醇的DHP107(由单油酸甘油酯、三辛酸甘油酯和吐温80混合而成)以50mg/kg的剂量口服给予雌性BALB/c小鼠。将稀释后的紫杉醇以10mg/kg的剂量通过尾静脉推注作为对照。在不同时间点采集血液和组织样本,并通过高效液相色谱法进行分析。在免疫组织化学和油红O染色后,使用光学显微镜观察组织切片。到第27天时,DHP107和紫杉醇治疗后的肿瘤体积是未治疗组的三分之一。口服给药后,紫杉醇广泛分布于各个器官(T(max)=2小时),尤其是肝脏、脾脏和肺。DHP107通过肠道脂质转运系统有效吸收。DHP107在肠道中自发转变为<100μm的液滴和微团,进而粘附于粘膜上皮细胞,通过脂质摄取机制被吸收,并在上皮中形成脂质体。DHP107中的紫杉醇通过脂质摄取机制经胃肠道有效吸收,并分布于各种组织中。目前正在研究其详细的摄取机制。
