Journal
MOLECULAR SYSTEMS DESIGN & ENGINEERING
Volume 6, Issue 10, Pages 825-831Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/d1me00074h
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Funding
- National Natural Science Foundations of China [21665027, 21675075]
- YMU-DEAKIN International Associated Laboratory on Functional Materials, Education Department of Yunnan Province [117-02001001002107]
- Foundation of Education Bureau of Yunnan Province [2020J0327]
- Deakin University
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In this study, a nanosystem for small molecule delivery and bioimaging was developed using l-cysteine-functionalized gold nanoparticles combined with a rhodamine 6G derivative. The system demonstrated enhanced fluorescence emission and sustained release of the payload into cells, acting as a delivery vehicle for bioimaging without causing significant cell toxicity. This molecular-scale engineered nanosystem opens up new possibilities for biomedical applications.
Functionalized gold nanoparticles (GNPs) have been extensively studied for cargo delivery and imaging towards biomedical applications. However, there are limited studies showcasing the above two in sync using GNPs. In this work, we fabricated a nanosystem for small molecule delivery and bioimaging based on l-cysteine (l-Cys)-functionalized GNPs (GNP-l-Cys) coupled with a rhodamine 6G derivative (Rh6G2). GNPs conjugated with Rh6G2 (GNP-l-Cys-Rh6G2), as a model system, showcased enhanced fluorescence emission due to on-demand release of the rhodamine dye (RGCOOH) from the surface of the GNPs through spiro ring-opening followed by an ion-catalyzed hydrolysis mechanism in the presence of Cu2+. Moreover, in vitro studies showed sustained release of RGCOOH into cells; thus, GNP-l-Cys-Rh6G2 acted as a delivery vehicle without causing significant cell toxicity and was further used for fluorescence imaging. We believe such nanoscale systems with molecular scale engineering open up new possibilities for biomedical applications.
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