Glutathione-Scavenging Poly(disulfide amide) Nanoparticles for the Effective Delivery of Pt(IV) Prodrugs and Reversal of Cisplatin Resistance

Despite the broad antitumor spectrum of cisplatin, its therapeutic efficacy in cancer treatment is compromised by the development of drug resistance in tumor cells and systemic side effects. A close correlation has been drawn between cisplatin resistance in tumor cells and increased levels of intrac...

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Bibliographic Details
Published in:Nano letters 2018-07, Vol.18 (7), p.4618-4625
Main Authors: Ling, Xiang, Chen, Xing, Riddell, Imogen A, Tao, Wei, Wang, Junqing, Hollett, Geoffrey, Lippard, Stephen J, Farokhzad, Omid C, Shi, Jinjun, Wu, Jun
Format: Article
Language:English
Subjects:
Amides - chemistry
Animals
Cell Line, Tumor
Cisplatin - adverse effects
Disulfides - chemistry
Drug Resistance, Neoplasm - genetics
Free Radical Scavengers - administration & dosage
Free Radical Scavengers - chemistry
Glutathione - administration & dosage
Glutathione - chemistry
Humans
Mice
Nanoparticles - administration & dosage
Nanoparticles - chemistry
Neoplasms - drug therapy
Neoplasms - pathology
Polymers - chemistry
Prodrugs - administration & dosage
Prodrugs - chemistry
Xenograft Model Antitumor Assays
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Summary:Despite the broad antitumor spectrum of cisplatin, its therapeutic efficacy in cancer treatment is compromised by the development of drug resistance in tumor cells and systemic side effects. A close correlation has been drawn between cisplatin resistance in tumor cells and increased levels of intracellular thiol-containing species, especially glutathione (GSH). The construction of a unique nanoparticle (NP) platform composed of poly­(disulfide amide) polymers with a high disulfide density for the effective delivery of Pt­(IV) prodrugs capable of reversing cisplatin resistance through the disulfide-group-based GSH-scavenging process, as described herein, is a promising route by which to overcome limitations associated with tumor resistance. Following systematic screening, the optimized NPs (referred to as CP5 NPs) showed a small particle size (76.2 nm), high loading of Pt­(IV) prodrugs (15.50% Pt), a sharp response to GSH, the rapid release of platinum (Pt) ions, and notable apoptosis of cisplatin-resistant A2780cis cells. CP5 NPs also exhibited long blood circulation and high tumor accumulation after intravenous injection. Moreover, in vivo efficacy and safety results showed that CP5 NPs effectively inhibited the growth of cisplatin-resistant xenograft tumors with an inhibition rate of 83.32% while alleviating serious side effects associated with cisplatin. The GSH-scavenging nanoplatform is therefore a promising route by which to enhance the therapeutic index of Pt drugs used currently in cancer treatment.
ISSN:1530-6984
1530-6992
DOI:10.1021/acs.nanolett.8b01924