Liver injury poses a serious threat to human health and growing evidence suggests that it is closely associated with a biomarker (peroxynitrite, ONOO). Therefore, considering that the relationship of ONOO levels with the occurrence and development of liver injury disease remains a challenge, an urgent need exists to develop a reliable and robust tool for its visual rapid diagnosis and assessment. Herein, a two-photon near-infrared (TP-NIR) ratiometric fluorescent nanoprobe () based on a fluorescence resonance energy transfer (FRET) strategy was designed, synthesized, and characterized, which had the advantages of good water solubility, low background interference, deep tissue penetration, and high imaging resolution. Specially, was constructed by self-assembly of an alkynyl group of a small-molecule fluorescent probe (NR) via click chemistry grafting onto azide chitosan (natural polymeric nanomaterial). NR contained acceptor (NIR fluorophore) and donor (-π- structure of naphthalimide derivative fluorophore) with outstanding TP properties that could be activated by ONOO for the ratiometric detection of ONOO. Furthermore, in the presence of ONOO, exhibited a short response time (∼10 s) and high selectivity and sensitivity toward ONOO with an excellent detection limit as low as 15.3 nM over other reactive oxygen/nitrogen species. Notably, has been successfully employed for ONOO detection and imaging in living HepG2 cells, liver injury mice tissues, and mice models with satisfactory results. Thus, the construction of this nanoprobe can provide a robust molecule tool for enabling early diagnosis and assessment of liver injury in the future.
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