Department of Pharmaceutical Sciences, Leslie Dan Faculty of Pharmacy, University of Toronto, Toronto, Canada.
J Control Release. 2012 Mar 28;158(3):379-85. doi: 10.1016/j.jconrel.2011.11.025. Epub 2011 Nov 26.
The current study characterizes the impact of docetaxel (DTX) distribution on efficacy following sustained intraperitoneal (IP) chemotherapy in murine models of ovarian cancer. A polymer-lipid biodegradable depot (PoLigel) was used to deliver DTX in a sustained manner over 21-days following IP administration. Distribution and efficacy studies were carried out in SCID mice bearing SKOV3 IP solid tumors or C57BL/6 mice with ID8 IP ascites fluid. In addition, a subcutaneous (SC) SKOV3 model was used to determine whether systemic drug levels that result from IP administration of the PoLigel influence antitumor efficacy. Immunostained IP and SC SKOV3 tumor sections were used to study cell death, intratumoral drug distribution and tumor penetration. Sustained concentrations of DTX were observed in plasma, tissue, tumor and ascites over the entire study period. Drug accumulation was several fold greater in tumors and ascites when compared to plasma levels. Sustained chemotherapy resulted in significant reduction in tumor burden and ascites volume. IP tumors showed greater cell death compared to the SC tumors as seen by higher TUNEL and caspase-3 expression. At the intratumoral level, DTX distributed more towards the core of IP tumors compared to the SC tumors. Tumor penetration of drug from nearest blood vessel was 1.5 fold greater in the IP tumors than the SC tumors. Overall, favorable drug distribution at the whole-body, peritoneal and intratumoral levels in combination with local and systemic sustained drug exposure contribute to the high efficacy observed. These results encourage the clinical use of IP sustained chemotherapy for ovarian cancer.
本研究描述了多西紫杉醇(DTX)在小鼠卵巢癌模型中持续腹腔内(IP)化疗后的分布对疗效的影响。采用聚合物-脂质可生物降解储库(PoLigel)在 IP 给药后 21 天内持续递送至 DTX。在携带 SKOV3 IP 实体瘤的 SCID 小鼠或携带 ID8 IP 腹水的 C57BL/6 小鼠中进行了分布和疗效研究。此外,还使用皮下(SC)SKOV3 模型来确定从 IP 给予 PoLigel 导致的全身药物水平是否影响抗肿瘤疗效。免疫染色的 IP 和 SC SKOV3 肿瘤切片用于研究细胞死亡、肿瘤内药物分布和肿瘤穿透性。在整个研究期间,在血浆、组织、肿瘤和腹水中均观察到持续的 DTX 浓度。与血浆水平相比,药物在肿瘤和腹水中的积累量增加了数倍。持续化疗导致肿瘤负担和腹水体积显著减少。与 SC 肿瘤相比,IP 肿瘤显示出更高的细胞死亡,这可以通过更高的 TUNEL 和 caspase-3 表达来观察到。在肿瘤内水平,与 SC 肿瘤相比,DTX 更倾向于向 IP 肿瘤的核心分布。来自最近血管的药物向 IP 肿瘤的穿透性是 SC 肿瘤的 1.5 倍。总体而言,全身、腹膜和肿瘤内水平的有利药物分布与局部和全身持续药物暴露相结合,有助于观察到的高疗效。这些结果鼓励将 IP 持续化疗用于卵巢癌的临床应用。