Transformative Nanomedicine of an Amphiphilic Camptothecin Prodrug for Long Circulation and High Tumor Uptake in Cancer Therapy

Overview

Journal ACS Nano

Publisher American Chemical Society

Specialty Biotechnology

Date 2017 Sep 1

PMID 28858467

Citations 43

Authors

Fuwu Zhang

Guizhi Zhu

Orit Jacobson

Yi Liu

Kai Chen

Guocan Yu

Qianqian Ni

Jing Fan

Zhen Yang

Frederick Xu

Xiao Fu

Zhe Wang

Ying Ma

Gang Niu

Xiaobin Zhao

Xiaoyuan Chen

Affiliations

Soon will be listed here.

Abstract

We report a camptothecin (CPT) prodrug that was well formulated in solution and rapidly transformed into long-circulating nanocomplexes in vivo for highly efficient drug delivery and effective cancer therapy. Specifically, using a redox-responsive disulfide linker, CPT was conjugated with an albumin-binding Evans blue (EB) derivative; the resulting amphiphilic CPT-ss-EB prodrug self-assembled into nanostructures in aqueous solution, thus conferring high solubility and stability. By binding CPT-ss-EB to endogenous albumin, the 80 nm CPT-ss-EB nanoparticles rapidly transformed into 7 nm albumin/prodrug nanocomplexes. CPT-ss-EB was efficient at intracellular delivery into cancer cells, released intact CPT in a redox-responsive manner, and exhibited cytotoxicity as potent as CPT. In mice, the albumin/CPT-ss-EB nanocomplex exhibited remarkably long blood circulation (130-fold greater than CPT) and efficient tumor accumulation (30-fold of CPT), which consequently contributed to excellent therapeutic efficacy. Overall, this strategy of transformative nanomedicine is promising for efficient drug delivery.

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