Issue 2, 2019

pH-responsive targeted gold nanoparticles for in vivo photoacoustic imaging of tumor microenvironments

Abstract

The acidic microenvironment of tumor tissues has been proven to be a major characteristic for differentiation from normal tissues, thereby providing a desirable target for both disease diagnosis and functional imaging. We herein introduce a way to endow gold nanoparticles with aggregation behaviour induced by pH tuning. The nanoparticle surface was modified with two thiol conjugate molecules, which could smartly stabilize it at the pH of blood and normal tissues but induce aggregation in response to the acidic extracellular pH in tumor. The surface conjugate molecule composition effect was studied systematically, and at the optimal surface conjugate molecule composition, a pH-responsive active tumor-targeting c(RGDyk)-MHDA/LSC@AuNP nanoprobe was successfully obtained and showed a significantly enhanced contrast effect for both in vitro and in vivo photoacoustic (PA) imaging. Intravenous administration of our nanoprobe to U87MG tumor-bearing nude mice showed PA imaging contrasts almost 3-fold higher than those for the blocking group. Quantitative biodistribution data revealed that 9.7 μg g−1 of nanoprobe accumulated in the U87MG tumor 4 h post-injection. These findings might provide an effective strategy for developing new classes of intelligent and biocompatible contrast agents with a high efficiency for PA imaging and PA imaging-guided cancer therapy.

Graphical abstract: pH-responsive targeted gold nanoparticles for in vivo photoacoustic imaging of tumor microenvironments

Supplementary files

Article information

Article type
Paper
Submitted
04 Sep 2018
Accepted
09 Dec 2018
First published
13 Dec 2018
This article is Open Access
Creative Commons BY-NC license

Nanoscale Adv., 2019,1, 554-564

pH-responsive targeted gold nanoparticles for in vivo photoacoustic imaging of tumor microenvironments

S. Li, K. Lui, T. Tsoi, W. Lo, X. Li, X. Hu, W. Chi-Shing Tai, C. Hiu-Ling Hung, Y. Gu and W. Wong, Nanoscale Adv., 2019, 1, 554 DOI: 10.1039/C8NA00190A

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