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Ultrasmall Glutathione-Protected Gold Nanoclusters as Next Generation Radiotherapy Sensitizers with High Tumor Uptake and High Renal Clearance.

Authors :
Zhang, Xiao-Dong
Luo, Zhentao
Chen, Jie
Song, Shasha
Yuan, Xun
Shen, Xiu
Wang, Hao
Sun, Yuanming
Gao, Kai
Zhang, Lianfeng
Fan, Saijun
Leong, David Tai
Guo, Meili
Xie, Jianping
Source :
Scientific Reports; 3/6/2015, p8669, 1p
Publication Year :
2015

Abstract

Radiotherapy is often the most straightforward first line cancer treatment for solid tumors. While it is highly effective against tumors, there is also collateral damage to healthy proximal tissues especially with high doses. The use of radiosensitizers is an effective way to boost the killing efficacy of radiotherapy against the tumor while drastically limiting the received dose and reducing the possible damage to normal tissues. Here, we report the design and application of a good radiosensitizer by using ultrasmall Au<subscript>29-43</subscript>(SG)<subscript>27-37</subscript> nanoclusters (<2 nm) with a naturally-occurring peptide (e.g., glutathione or GSH) as the protecting shell. The GSH-coated Au<subscript>29-43</subscript>(SG)<subscript>27-37</subscript> nanoclusters can escape the RES absorption, leading to a good tumor uptake (~8.1% ID/g at 24 h post injection). As a result, the as-designed Au nanoclusters led to a strong enhancement for radiotherapy, as well as a negligible damage to normal tissues. After the treatment, the ultrasmall Au<subscript>29-43</subscript>(SG)<subscript>27-37</subscript> nanoclusters can be efficiently cleared by the kidney, thereby avoiding potential long-term side-effects caused by the accumulation of gold atoms in the body. Our data suggest that the ultrasmall peptide-protected Au nanoclusters are a promising radiosensitizer for cancer radiotherapy. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
20452322
Database :
Complementary Index
Journal :
Scientific Reports
Publication Type :
Academic Journal
Accession number :
101684928
Full Text :
https://doi.org/10.1038/srep08669