Direct, noninvasive, and real-time imaging of Staphylococcus aureus (S. aureus) infection is of great value for quick diagnosis of related disease in clinic, but remains challenging. Herein, employing a rationally designed near-infrared fluorescence probe Cys(StB u)-EDA-Thioketal-Lys(Cy5.5)-CBT (TK-CBT) and a CBT-Cys click reaction, the fluorescence-quenched nanoparticles TK-CBT-NPs are facilely prepared. Upon oxidation by the abundant reactive oxygen species in S. aureus-infected macrophages, TK-CBT-NPs are fractured, turning the fluorescence "on" for imaging infections in vitro and in vivo. Specifically, TK-CBT-NPs show a 6.1-fold fluorescence imaging signal enhancement of the macrophages that are infected by S. aureus for 20 h in vitro. At 4 h postinjection, TK-CBT-NPs show a 2.8-fold fluorescence imaging signal enhancement of the sites in mice that are infected by S. aureus for 24 h. It is anticipated that TK-CBT-NPs could be applied for diagnosis of S. aureus infections in clinic in the near future.
Keywords: CBT-Cys click reaction; S. aureus infection; fluorescence imaging; reactive oxygen species; self-assembly.
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