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Peroxynitrite‐Promoted Persulfide Prodrugs with Protective Potential against Paracetamol Poisoning
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AbstractThe newly emerging persulfide prodrugs provide additional options for the profound study of persulfide, a fascinating molecule expected to intervene in biological functions and even diseases. Peroxynitrite is often the culprit in pathological processes characterized by oxidative stress, while the persulfide prodrug responsive to it is still pending. To enrich the family of redox‐activated prodrugs, we designed prodrugs with a 2‐oxo‐2‐phenylacetamide trigger, which achieved the release of persulfide via 1, 6‐N, S‐relay. The degradation of prodrugs and the formation of persulfides were confirmed to be peroxynitrite‐responsible by the qualitative and quantitative studies based on LC‐MS/MS methods and a spectrophotometry‐based tag‐switch strategy. Furthermore, these prodrugs showed potent peroxynitrite scavenging activity, cellular therapeutic potential against paracetamol poisoning in HepG2 and oxidative stress in H9c2, as well as desirable in vitro metabolic properties.
Title: Peroxynitrite‐Promoted Persulfide Prodrugs with Protective Potential against Paracetamol Poisoning
Description:
AbstractThe newly emerging persulfide prodrugs provide additional options for the profound study of persulfide, a fascinating molecule expected to intervene in biological functions and even diseases.
Peroxynitrite is often the culprit in pathological processes characterized by oxidative stress, while the persulfide prodrug responsive to it is still pending.
To enrich the family of redox‐activated prodrugs, we designed prodrugs with a 2‐oxo‐2‐phenylacetamide trigger, which achieved the release of persulfide via 1, 6‐N, S‐relay.
The degradation of prodrugs and the formation of persulfides were confirmed to be peroxynitrite‐responsible by the qualitative and quantitative studies based on LC‐MS/MS methods and a spectrophotometry‐based tag‐switch strategy.
Furthermore, these prodrugs showed potent peroxynitrite scavenging activity, cellular therapeutic potential against paracetamol poisoning in HepG2 and oxidative stress in H9c2, as well as desirable in vitro metabolic properties.
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