Isotope dilution mass spectrometry for the quantification of sulfane sulfurs

Abstract

Sulfane sulfurs are one type of important reactive sulfur species. These molecules have unique reactivity that allows them to attach reversibly to other sulfur atoms and exhibit regulatory effects in diverse biological systems. Recent studies have suggested that sulfane sulfurs are involved in signal transduction processes regulated by hydrogen sulfide (H2S). Accurate and reliable measurements of sulfane sulfurs in biological samples are thus needed to reveal their production and mechanisms of actions. Herein we report a convenient and accurate method for the determination of sulfane sulfur concentrations. The method employs a triphenylphosphine derivative (P2) to capture sulfane sulfurs as a stable phosphine sulfide product, PS2. The concentration of PS2 was then determined by isotope dilution mass spectrometry, using a 13C3-labeled phosphine sulfide, PS1, as the internal standard. The specificity and efficiency of the method were proven by model reactions. It was also applied to the measurement of sulfane sulfurs in mouse tissues including brain, kidney, lung, liver, heart, spleen, and blood.