Bioactive NIR-II gold clusters for three-dimensional imaging and acute inflammation inhibition.
Huizhen MaXiaoning ZhangLing LiuYou HuangSi SunKe ChenQi XinPengfei LiuYuxing YanYili WangYuan LiHaile LiuRuoli ZhaoKexin TanXinzhu ChenXun YuanYonghui LiYing LiuHai Tao DaiChanglong LiuHao WangXiao-Dong ZhangPublished in: Science advances (2023)
Strong fluorescence and high catalytic activities cannot be achieved simultaneously due to conflicts in free electron utilization, resulting in a lack of bioactivity of most near-infrared-II (NIR-II) fluorophores. To circumvent this challenge, we developed atomically precise Au 22 clusters with strong NIR-II fluorescence ranging from 950 to 1300 nm exhibiting potent enzyme-mimetic activities through atomic engineering to create active Cu single-atom sites. The developed Au 21 Cu 1 clusters show 18-fold higher antioxidant, 90-fold higher catalase-like, and 3-fold higher superoxide dismutase-like activities than Au 22 clusters, with negligible fluorescence loss. Doping with single Cu atoms decreases the bandgap from 1.33 to 1.28 eV by predominant contributions from Cu d states, and Cu with lost electron states effectuates high catalytic activities. The renal clearable clusters can monitor cisplatin-induced renal injury in the 20- to 120-minute window and visualize it in three dimensions using NIR-II light-sheet microscopy. Furthermore, the clusters inhibit oxidative stress and inflammation in the cisplatin-treated mouse model, particularly in the kidneys and brain.
Keyphrases
- oxidative stress
- photodynamic therapy
- single molecule
- fluorescence imaging
- mouse model
- drug release
- high resolution
- aqueous solution
- fluorescent probe
- sensitive detection
- metal organic framework
- liver failure
- diabetic rats
- molecular dynamics
- drug delivery
- gold nanoparticles
- blood brain barrier
- optical coherence tomography
- drug induced
- heat stress
- solar cells
- endoplasmic reticulum stress
- heat shock
- electron microscopy
- aortic dissection
- mechanical ventilation
- high speed