Literature DB >> 26974511

An injectable nanoparticle generator enhances delivery of cancer therapeutics.

Rong Xu1,2, Guodong Zhang1, Junhua Mai1, Xiaoyong Deng1, Victor Segura-Ibarra1, Suhong Wu1, Jianliang Shen1, Haoran Liu1, Zhenhua Hu1, Lingxiao Chen1, Yi Huang1, Eugene Koay1,3, Yu Huang1, Jun Liu4, Joe E Ensor5, Elvin Blanco1, Xuewu Liu1, Mauro Ferrari1,6, Haifa Shen1,7.   

Abstract

The efficacy of cancer drugs is often limited because only a small fraction of the administered dose accumulates in tumors. Here we report an injectable nanoparticle generator (iNPG) that overcomes multiple biological barriers to cancer drug delivery. The iNPG is a discoidal micrometer-sized particle that can be loaded with chemotherapeutics. We conjugate doxorubicin to poly(L-glutamic acid) by means of a pH-sensitive cleavable linker, and load the polymeric drug (pDox) into iNPG to assemble iNPG-pDox. Once released from iNPG, pDox spontaneously forms nanometer-sized particles in aqueous solution. Intravenously injected iNPG-pDox accumulates at tumors due to natural tropism and enhanced vascular dynamics and releases pDox nanoparticles that are internalized by tumor cells. Intracellularly, pDox nanoparticles are transported to the perinuclear region and cleaved into Dox, thereby avoiding excretion by drug efflux pumps. Compared to its individual components or current therapeutic formulations, iNPG-pDox shows enhanced efficacy in MDA-MB-231 and 4T1 mouse models of metastatic breast cancer, including functional cures in 40-50% of treated mice.

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Year:  2016        PMID: 26974511      PMCID: PMC5070674          DOI: 10.1038/nbt.3506

Source DB:  PubMed          Journal:  Nat Biotechnol        ISSN: 1087-0156            Impact factor:   54.908


  30 in total

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