低温敏感脂质体包裹多西他赛联合轻度热疗在前列腺癌小鼠模型中的生物分布及疗效
Biodistribution and Efficacy of Low Temperature-Sensitive Liposome Encapsulated Docetaxel Combined with Mild Hyperthermia in a Mouse Model of Prostate Cancer.
作者信息
Ranjan Ashish, Benjamin Compton J, Negussie Ayele H, Chokshi Saurin, Chung Paul H, Volkin Dmitry, Yeram Nitin, Linehan W Marston, Dreher Matthew R, Pinto Peter A, Wood Bradford J
机构信息
Center for Interventional Oncology, Radiology & Imaging Sciences, Clinical Center, National Institutes of Health, MSC 1182- building 10- room 1c -341, 10 Center Drive, Bethesda, Maryland, 20892, USA.
Urologic Oncology Branch, National Cancer Institute, National Institutes of Health, Bethesda, Maryland, USA.
出版信息
Pharm Res. 2016 Oct;33(10):2459-69. doi: 10.1007/s11095-016-1971-8. Epub 2016 Jun 24.
PURPOSE
Low temperature sensitive liposome (LTSL) encapsulated docetaxel were combined with mild hyperthermia (40-42°C) to investigate in vivo biodistribution and efficacy against a castrate resistant prostate cancer.
METHOD
Female athymic nude mice with human prostate PC-3 M-luciferase cells grown subcutaneously into the right hind leg were randomized into six groups: saline (+/- heat), free docetaxel (+/- heat), and LTSL docetaxel (+/- heat). Treatment (15 mg docetaxel/kg) was administered via tail vein once tumors reached a size of 200-300 mm(3). Mice tumor volumes and body weights were recorded for up to 60 days. Docetaxel concentrations of harvested tumor and organ/tissue homogenates were determined by LC-MS. Histological evaluation (Mean vessel density, Ki67 proliferation, Caspase-3 apoptosis) of saline, free Docetaxel and LTSL docetaxel (+/- heat n = 3-5) was performed to determine molecular mechanism responsible for tumor cell killing.
RESULT
LTSL/heat resulted in significantly higher tumor docetaxel concentrations (4.7-fold greater compared to free docetaxel). Adding heat to LTSL Docetaxel or free docetaxel treatment resulted in significantly greater survival and growth delay compared to other treatments (p < 0.05). Differences in body weight between all Docetaxel treatments were not reduced by >10% and were not statistically different from each other. Molecular markers such as caspase-3 were upregulated, and Ki67 expression was significantly decreased in the chemo-hyperthermia group. Vessel density was similar post treatment, but the heated group had reduced vessel area, suggesting thermal enhancement in efficacy by reduction in functional perfusion.
CONCLUSION
This technique of hyperthermia sensitization and enhanced docetaxel delivery has potential for clinical translation for prostate cancer treatment.
目的
将低温敏感脂质体(LTSL)包裹的多西他赛与轻度热疗(40 - 42°C)相结合,研究其对去势抵抗性前列腺癌的体内生物分布及疗效。
方法
将皮下接种人前列腺PC - 3 M - 荧光素酶细胞于右后腿的雌性无胸腺裸鼠随机分为六组:生理盐水组(±热疗)、游离多西他赛组(±热疗)、LTSL多西他赛组(±热疗)。当肿瘤大小达到200 - 300 mm³时,经尾静脉给予治疗(多西他赛15 mg/kg)。记录小鼠肿瘤体积和体重长达60天。通过液相色谱 - 质谱法测定收获的肿瘤及器官/组织匀浆中的多西他赛浓度。对生理盐水组、游离多西他赛组和LTSL多西他赛组(±热疗,n = 3 - 5)进行组织学评估(平均血管密度、Ki67增殖、Caspase - 3凋亡),以确定肿瘤细胞杀伤的分子机制。
结果
LTSL/热疗导致肿瘤多西他赛浓度显著更高(比游离多西他赛高4.7倍)。与其他治疗相比,LTSL多西他赛或游离多西他赛治疗联合热疗导致显著更长的生存期和生长延迟(p < 0.05)。所有多西他赛治疗组之间的体重差异减少不超过10%,且彼此之间无统计学差异。化疗 - 热疗组中,诸如Caspase - 3等分子标志物上调,Ki67表达显著降低。治疗后血管密度相似,但热疗组血管面积减小,提示通过减少功能性灌注增强了热疗疗效。
结论
这种热疗致敏和增强多西他赛递送的技术在前列腺癌治疗的临床转化方面具有潜力。
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