Xing Guo, Lin Wang, Kayla Duval, Jing Fan, Shaobing Zhou, Zi Chen
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引用次数: 0
Abstract
Trans-activating transcriptional activator (TAT), a cell-penetrating peptide,
has been extensively used for facilitating cellular uptake and nuclear
targeting of drug delivery systems. However, the positively charged TAT peptide
usually strongly interacts with serum components and undergoes substantial
phagocytosis by the reticuloendothelial system, causing a short blood
circulation in vivo. In this work, an acid-active tumor targeting nanoplatform
DA-TAT-PECL was developed to effectively inhibit the nonspecific interactions
of TAT in the bloodstream. 2,3-dimethylmaleic anhydride (DA) was first used to
convert the TAT amines to carboxylic acid, the resulting DA-TAT was further
conjugated to get DA-TAT-PECL. After self-assembly into polymeric micelles,
they were capable of circulating in the physiological condition for a long time
and promoting cell penetration upon accumulation at the tumor site and
de-shielding the DA group. Moreover, camptothecin (CPT) was used as the
anticancer drug and modified into a dimer (CPT)2-ss-Mal, in which two CPT
molecules were connected by a reduction-labile maleimide thioether bond. The
FRET signal between CPT and maleimide thioether bond was monitored to visualize
the drug release process and effective targeted delivery of antitumor drugs was
demonstrated. This pH/reduction dual-responsive micelle system provides a new
platform for high fidelity cancer therapy.
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