A Multifunctional AIE Nanoprobe as a Drug Delivery Bioimaging and Cancer Treatment System

A Multifunctional AIE Nanoprobe as a Drug Delivery Bioimaging and Cancer Treatment System

Of all malignant brain tumors, glioma is the deadliest and most common, with a poor prognosis. Drug therapy is considered as a promising way to stop the progression of disease and even cure tumors. However, the presence of blood brain barrier (BBB) and blood tumor barrier (BTB) limits the delivery o...

Description complète

Enregistré dans:
Détails bibliographiques
Auteurs principaux: Keqi Hu, Daquan Zhou, Linlin Rao, Peng Wang, Chunxiang Xiang, Feng Chen
Format: article
Langue:EN
Publié: Frontiers Media S.A. 2021
Sujets:
drug delivery
aggregation-induced emission
imaging
PLA-PEG
T7 peptide
cancer treatment
Biotechnology
TP248.13-248.65
Accès en ligne:https://doaj.org/article/f91db9f18e264b2dac19c96793a4b89c
Tags: Ajouter un tag
Pas de tags, Soyez le premier à ajouter un tag!
Description
Résumé:Of all malignant brain tumors, glioma is the deadliest and most common, with a poor prognosis. Drug therapy is considered as a promising way to stop the progression of disease and even cure tumors. However, the presence of blood brain barrier (BBB) and blood tumor barrier (BTB) limits the delivery of these therapeutic genes. In this work, an intelligent cell imaging and cancer therapy drug delivery system targeting the blood-brain barrier and the highly expressed transferrin receptors (TfR) in gliomas has been successfully constructed, and an amphiphilic polymer (PLA-PEG-T7/TPE) with aggregation-induced emission (AIE) properties has been designed and successfully synthesized. PLA-PEG-T7/TPE self-assembled polymer micelles showed significant AIE effect in aqueous solution with good biocompatibility. Therefore, it can be used for potential biological imaging applications. In addition, drug-carrying micelles showed typical behavior of regulating drug release. Inhibition of cell proliferation in vitro showed that the drug-loaded micelles had dose-dependent cytotoxicity to LN229 cells. In the in vivo anti-tumor experiment, PLA-PEG-T7/TPE/TMZ had the best therapeutic effect. These results indicated that T7 functionalized PLA-PEG was a promising platform for nasopharyngeal cancer drug combination therapy.

Documents similaires