There is a potential synergistic effect between nonsteroidal
anti-inflammatory
drugs and hydrogen sulfide (H2S), but direct evidence for
the study is lacking. With a single fluorescence detection method,
it is difficult to accurately confirm the effectiveness of the synergistic
effect. In this study, the fluorescent probe and the nonsteroidal
anti-inflammatory drug naproxen were combined via different self-immolative
spacer groups to obtain a diagnostic and therapeutic integrated fluorescent
probe Nap-NP-NSB, which can release H2S. The
quantitative release of H2S by Nap-NP-NSB was
evaluated in vitro and in cells, and the synergistic
effect of H2S and naproxen was confirmed by monitoring
the treatment process of cellular inflammation and oxidative damage
of gastric mucosa cells. Finally, in vivo fluorescence
imaging and mass spectrometry imaging of the liver and stomach tissues
and their sections were performed in the mouse model of acute hepatitis.
The dual-modal detection method not only confirmed that Nap-NP-NSB had better anti-inflammatory activity and less gastric mucosal damage,
but also enabled a more accurate visualization of the drug synergistic
effect of naproxen and H2S. This work provides a dual visualization
imaging method combining fluorescence and mass spectrometry imaging
and develops a new idea for studying drug synergies based on self-immolative
structures.