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Acs Nano:李亚平等纳米载体降低肿瘤耐药研究获进展

2011-12-12 MedSci原创 MedSci原创

纳米肿瘤耐药
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近日,中科院上海药物研究所李亚平课题组与上海硅酸盐研究所施建林研究员课题组合作,在通过纳米载体调控细胞内药物释放降低肿瘤耐药研究中取得重要进展。相关研究结果发表在纳米技术领域期刊Acs Nano。 多药耐药现象是癌症治疗的主要障碍之一,而化疗药物的纳米输送系统有望提高对耐药肿瘤的治疗效果。上海硅酸盐所施建林课题组长期致力于介孔二氧化硅纳米粒(MSNs)的制备和应用基础研究,而上海药物所李亚平研究

近日,中科院上海药物研究所李亚平课题组与上海硅酸盐研究所施建林研究员课题组合作,在通过纳米载体调控细胞内药物释放降低肿瘤耐药研究中取得重要进展。相关研究结果发表在纳米技术领域期刊Acs Nano

多药耐药现象是癌症治疗的主要障碍之一,而化疗药物的纳米输送系统有望提高对耐药肿瘤的治疗效果。上海硅酸盐所施建林课题组长期致力于介孔二氧化硅纳米粒(MSNs)的制备和应用基础研究,而上海药物所李亚平研究组在纳米技术降低肿瘤耐药性方面有丰富积累。近年来,两课题组开展合作,以MSNs为可控型的纳米载体,探索了纳米载体调控细胞内药物释放降低肿瘤耐药性。双方设计并制备了不同释药孔径的中空二氧化硅纳米粒(HMSNs),作为抗癌药物阿霉素(DOX)的载体,通过控制MSNs的释药孔径,调节药物的细胞摄取,通过MSNs的释药孔径差异,调控DOX的释放速率,抑制P-gp和消耗ATP等途径,克服肿瘤多药耐药。

为调控DOX的胞内释放速率,上海硅酸盐所博士研究生陈雨等制备了粒径200nm,孔径分别为3.2nm、6.4nm和12.8nm的三种HMSNs,上海药物所高瑜等开展了HMSNs在肿瘤多药耐药细胞中的生物学评价。作为一种新型孔径可控的无机纳米载体,HMSNs在MCF-7细胞和耐药的MCF-7/ADR细胞中均能有效被摄取,且细胞毒性低,HMSNs不仅有较强的载DOX能力和pH-响应性释药性质,而且其细胞外和细胞内药物释放均显示孔径依赖性的药物释放行为。

另外,载DOX的HMSNs (DMSNs)在MCF-7/ADR细胞中的抗癌活性也呈孔径依赖性,较大孔径的DMSNs能介导更多DOX的细胞摄取和更快的胞内药物释放,在胞内药物蓄积量更高,逆转耐药效果更佳。该研究对通过纳米技术降低肿瘤多药耐药的机理研究具有重要参考价值。(生物谷Bioon.com)

>>延伸阅读:PNAS:高效低毒纳米颗粒抑制耐药肿瘤细胞生长新成果

>>延伸阅读:肿瘤细胞多药耐药基因及产物p糖蛋白检测方法的研究进展

>>延伸阅读:肿瘤细胞多药耐药机理的研究进展

>>延伸阅读:生物物理所抗肿瘤化疗药物纳米载体研究获重大突破

>>延伸阅读:Nature Nanotechnology:新型RNAi药物纳米载体

doi:10.1021/nn2033105
PMC:
PMID:

Controlled Intracellular Release of Doxorubicin in Multidrug-Resistant Cancer Cells by Tuning the Shell-Pore Sizes of Mesoporous Silica Nanoparticles

Yu Gao, Yu Chen, Xiufeng Ji, Xinyu He, Qi Yin, Zhiwen Zhang, Jianlin Shi, and Yaping Li

In this work, hollow mesoporous silica nanoparticles (HMSNs) with three pore sizes were manufactured to control the drug release rate, and the biological roles of these HMSNs were evaluated in multidrug-resistant (MDR) cancer cells. As novel pore-size-controllable inorganic materials, HMSNs showed negligible cytotoxicity and efficient cellular uptake toward drug-sensitive MCF-7 and drug-resistant MCF-7/ADR cells. Doxorubicin (DOX)-loaded HMSNs (DMSNs) not only demonstrated effective drug loading and a pH-responsive drug release character but also exhibited pore-size-dependent and sustained drug release performance in both in vitro and intracellular drug release experiments. In addition, DMSNs exhibited pore-size-dependent anticancer activity against MCF-7/ADR cells. DMSNs with larger pore size could mediate more cellular uptake of DOX and faster intracellular drug release, which led to more intracellular drug accumulation and stronger MDR-reversal effects. The MDR-overcoming mechanism could be due to the efficient cellular uptake, P-gp inhibition, and ATP depletion. These results demonstrate that HMSNs could be a very promising drug delivery system for pore-size-controllable drug release and cancer MDR reversion.

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    2012-04-01 apoenzyme

    #纳米载体#

    0

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    2012-03-11 axin009

    #研究获进展#

    0

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    2012-04-11 mei539

    #载体#

    0

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    2011-12-14 yaanren

    #ACS#

    0

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新纳米载药系统成功用于恶性肿瘤治疗

近日,国际著名学术期刊ACS nano和Biomaterials相继报道了中科院理化技术研究所研制的新型纳米载药系统在恶性肿瘤治疗及其生物安全性评价方面取得的新突破。 化疗药物在杀伤肿瘤细胞的同时,也将正常细胞一同杀灭,是一种“玉石俱焚”的癌症治疗方法。纳米药物载体可以增强药物的抗肿瘤效果,并且降低药物引起的毒副作用,大大减轻病人痛苦,延长生存期,为肿瘤治疗带来新的机遇。无机纳米材料是生物医学领