Issue 29, 2019

A size-tunable and multi-responsive nanoplatform for deep tumor penetration and targeted combinatorial radio-/chemotherapy

Abstract

Nowadays, the design of multistimuli-responsive and deep penetrating nanotherapeutics remains an auspicious means for improving the efficiency of anticancer therapeutics. Herein, we develop a targeted size-tunable nanosystem that would concurrently and uniformly release its therapeutic cargo into tumor cells by exploiting both extracellular and intracellular signals. This nanosystem (HPDAu) is composed of self-assembled pH-responsive DOX–PAMAM (PD) conjugates and ultrasmall PAMAM-stabilized gold nanoparticles (AuNPs), incorporated into a hyaluronidase-responsive hyaluronic acid nanoshell. HPDAu nanoparticles with an initial particle size of ∼100 nm could disassemble into tiny cationic nanostructures (∼5 nm, PD and AuNPs) upon incubation with HAase, and showed a burst drug-release under tumor microenvironment-mimicking conditions (HAase and acidic conditions). Such characteristics resulted in significantly improved tumor penetration both in vitro and in vivo, along with a higher cellular uptake efficiency and tumor accumulation as compared to free drug solutions. Taking advantage of these features along with the chemotherapeutic effect (DOX) and AuNP/DOX-induced radiosensitization, HPDAu plus radiotherapy (RT) treatment resulted in a substantial increase of apoptotic and cytotoxic effects against 4T1 cells. More importantly, the radio-/chemotherapeutic feasibility of HPDAu was further validated in a 4T1 orthotropic model, revealing a prominent antitumor efficacy and reduced side-toxicity compared to monotherapy and free drug solutions. Therefore, this versatile nanoplatform with active targeting, size tunability and radio-/chemotherapeutic features could be a promising tool for tumor combinatorial therapy.

Graphical abstract: A size-tunable and multi-responsive nanoplatform for deep tumor penetration and targeted combinatorial radio-/chemotherapy

Supplementary files

Article information

Article type
Paper
Submitted
15 Apr 2019
Accepted
23 Jun 2019
First published
26 Jun 2019

J. Mater. Chem. B, 2019,7, 4484-4498

A size-tunable and multi-responsive nanoplatform for deep tumor penetration and targeted combinatorial radio-/chemotherapy

F. Z. Dahmani, D. Zhong, Y. Qi, A. E. G. Dahmani, T. Xie, B. Zhou, W. Li, K. Yao, L. Li and M. Zhou, J. Mater. Chem. B, 2019, 7, 4484 DOI: 10.1039/C9TB00716D

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