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A multi-hit therapeutic nanoplatform for hepatocellular carcinoma: Dual stimuli-responsive drug release, dual-modal imaging, and in situ oxygen supply to enhance synergistic therapy

Taiying Chen, Ngalei Tam, Yu Mao, Chengjun Sun, Zekang Wang, Yuchen Hou, Wuzheng Xia, Jia Yu, Linwei Wu

2022Materials Today Bio18 citationsDOIOpen Access PDF

Abstract

Nanomedicine has been widely studied for the diagnosis and treatment of hepatocellular carcinoma (HCC). How to synthesize a nanoplatform possessing a high synergistic therapeutic efficacy remains a challenge in this emerging research field. In this study, a convenient all-in-one therapeutic nanoplatform (FTY720@AM/T7-TL) is designed for HCC. This advanced nanoplatform consists of multiple functional elements, including gold-manganese dioxide nanoparticles (AM), tetraphenylethylene (T), fingolimod (FTY720), hybrid-liposome (L), and T7 peptides (T7). The nanoplatform is negatively charged at physiological pH and can transit to a positively charged state once moving to acidic pH environments. The specially designed pH-responsive charge-reversal nanocarrier prolongs the half-life of nanodrugs in blood and improves cellular uptake efficiency. The platform achieves a sustained and controllable drug release through dual stimulus-response, with pH as the endogenous stimulus and near-infrared as the exogenous stimulus. Furthermore, the nanoplatform realizes in situ O2 generation by catalyzing tumor over-expressed H2O2, which alleviates tumor microenvironment hypoxia and improves photodynamic therapy. Both in vitro and in vivo studies show the prepared nanoplatform has good photothermal conversion, cellular uptake efficiency, fluorescence/magnetic resonance imaging capabilities, and synergistic anti-tumor effects. These results suggest that the prepared all-in-one nanoplatform has great potential for dual-modal imaging-guided synergistic therapy of HCC.

Topics & Concepts

NanocarriersPhotothermal therapyNanomedicineChemistryTumor hypoxiaTumor microenvironmentPhotodynamic therapyCancer researchIn vivoNanotechnologyBiophysicsDrug deliveryMaterials scienceRadiation therapyNanoparticleMedicineInternal medicineTumor cellsBiotechnologyBiologyOrganic chemistryNanoplatforms for cancer theranosticsNanoparticle-Based Drug DeliveryCancer, Hypoxia, and Metabolism
A multi-hit therapeutic nanoplatform for hepatocellular carcinoma: Dual stimuli-responsive drug release, dual-modal imaging, and in situ oxygen supply to enhance synergistic therapy | Litcius