Involvement of Reactive Persulfides in Biological Bismethylmercury Sulfide Formation

Bismethylmercury sulfide (MeHg)₂S has been found to be a detoxified metabolite of methylmercury (MeHg) that is produced by SH-SY5Y cells and in livers of rats exposed to MeHg. (MeHg)₂S could be formed through the interactions between MeHg and sulfur species such as hydrogen sulfide (H₂S or HS^-), but the origin of its sulfur has not been fully identified. We herein examined the formation of (MeHg)₂S through interactions between MeHg and persulfides, polysulfides, and protein preparations. Investigations using HPLC/atomic absorption spectrophotometry and EI-MS revealed that NaHS and Na₂S₄ react readily with MeHg to give (MeHg)₂S, and similar results were found using GSH persulfide (GSSH) formed endogenously or generated enzymatically in vitro. (MeHg)₂S was also formed by incubation of MeHg with liver and heart cytosolic fractions prepared from wild-type mice but not with those from mice lacking cystathionine γ-lyase (CSE) that catalyzes the formation of cysteine persulfide. Consistent with this, (MeHg)₂S was detected in a variety of tissues taken from wild-type mice intraperitoneally injected with MeHg in vivo but not in those from MeHg-injected CSE knockout mice. By separating liver fractions by column chromatography, we found numerous proteins that contain persulfides: one of the proteins was identified as being glutathione S-transferase pi 1. These results indicate that the formation of (MeHg)₂S can be attributed to interactions between MeHg and endogenous free persulfide species, as well as protein-bound cysteine persulfide.