Hydropersulfides and related polysulfides have recently become topics of significant interest due to their physiological prevalence and proposed biological functions. Currently, examination of the effects of hydropersulfide treatment on cells is difficult due to their lack of inherent stability with respect to disproportionation. Herein, it is reported that the treatment of a variety of cell types with cysteine trisulfide (also known as thiocystine; Cys-SSS-Cys), results in an increase in intracellular hydropersulfide levels (e.g., cysteine hydropersulfide; Cys-SSH, and glutathione hydropersulfide; GSSH). Thus, Cys-SSS-Cys represents a possible pharmacological agent for examining the effects of hydropersulfides on cell function/viability. It has also been found that cells with increased intracellular hydropersulfide levels can export Cys-SSH into the extracellular media. Interestingly, the Cys-SSH is the major hydropersulfide exported by cells, although GSSH is the predominant intracellular species. The possible implications of cellular export are discussed.
Hydropersulfide and
polysulfide species have recently been shown
to elicit a wide variety of biological and physiological responses.
In this study, we examine the effects of cysteine trisulfide (Cys-SSS-Cys;
also known as thiocystine) treatment on E. coli. Previous studies in mammalian cells have shown that Cys-SSS-Cys
treatment results in protection from the electrophiles. Here, we show
that the protective effect of Cys-SSS-Cys treatment against electrophile-induced
cell death is conserved in E. coli. This protection
correlates with the rapid generation of cysteine hydropersulfide (Cys-SSH)
in the culture media. We go on to demonstrate that an exogenous phosphatase
expressed in E. coli, containing only a single
catalytic cysteine, is protected from electrophile-induced inactivation
in the presence of hydropersulfides. These data together demonstrate
that E. coli can utilize Cys-SSS-Cys to generate
Cys-SSH and that the Cys-SSH can protect cellular thiols from reactivity
with the electrophiles.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.