Mei-Mei Zhao, Lu-Di Li, Mi-Mi Yang, Lu Yao, Qi Wang, Ke-Wu Zeng
Chemical communications (Cambridge, England) 2024 Feb 01Mercury sulfide (HgS) exerts extensive biological effects on neuronal function. To investigate the direct target of HgS in neuronal cells, we developed a biotin-tagged HgS probe (bio-HgS) and employed an affinity purification technique to capture its target proteins. Then, we identified S-phase kinase-associated protein 1 (Skp1) as a potential target of HgS. Unexpectedly, we discovered that HgS covalently binds to Skp1 through a "Cys62-HgS-Cys120" mode. Moreover, our findings revealed that HgS inhibits the ubiquitin-protease system through Skp1 to up-regulate SNAP-25 expression, thereby triggering synaptic vesicle exocytosis to regulate locomotion ability in C. elegans. Collectively, our findings may promote a comprehensive interpretation of the pharmacological mechanism of mercury sulfide on neuroprotective function.
Mei-Mei Zhao, Lu-Di Li, Mi-Mi Yang, Lu Yao, Qi Wang, Ke-Wu Zeng. Identification of Skp1 as a target of mercury sulfide for neuroprotection. Chemical communications (Cambridge, England). 2024 Feb 01;60(11):1464-1467
PMID: 38223951
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