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Metallofullerene nanoparticles circumvent tumor resistance to cisplatin by reactivating endocytosis
Author(s) -
XingJie Liang,
Huan Meng,
Yingze Wang,
Haiyong He,
Jie Meng,
Juan Lu,
Paul Wang,
Yuliang Zhao,
Xueyun Gao,
Baoyun Sun,
Chunying Chen,
Genmei Xing,
DingWu Shen,
Michael M. Gottesman,
Yan Wu,
JunJie Yin,
Lee Jia
Publication year - 2010
Publication title -
proceedings of the national academy of sciences
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 5.011
H-Index - 771
eISSN - 1091-6490
pISSN - 0027-8424
DOI - 10.1073/pnas.0909707107
Subject(s) - cisplatin , endocytosis , hela , cancer research , intracellular , cancer cell , cytotoxicity , chemistry , cancer , biology , pharmacology , microbiology and biotechnology , chemotherapy , medicine , biochemistry , cell , in vitro
Cisplatin is a chemotherapeutic drug commonly used in clinics. However, acquired resistance confines its application in chemotherapeutics. To overcome the acquired resistance to cisplatin, it is reasoned, based on our previous findings of mediation of cellular responses by [Gd@C(82)(OH)(22)](n) nanoparticles, that [Gd@C(82)(OH)(22)](n) may reverse tumor resistance to cisplatin by reactivating the impaired endocytosis of cisplatin-resistant human prostate cancer (CP-r) cells. Here we report that exposure of the CP-r PC-3-luc cells to cisplatin in the presence of nontoxic [Gd@C(82)(OH)(22)](n) not only decreased the number of surviving CP-r cells but also inhibited growth of the CP-r tumors in athymic nude mice as measured by both optical and MRI. Labeling the CP-r PC-3 cells with transferrin, an endocytotic marker, demonstrated that pretreatment of the CP-r PC-3-luc cells with [Gd@C(82)(OH)(22)](n) enhanced intracellular accumulation of cisplatin and formation of cisplatin-DNA adducts by restoring the defective endocytosis of the CP-r cancer cells. The results suggest that [Gd@C(82)(OH)(22)](n) nanoparticles overcome tumor resistance to cisplatin by increasing its intracellular accumulation through the mechanism of restoring defective endocytosis. The technology can be extended to other challenges related to multidrug resistance often found in cancer treatments.

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