Hydrogen sulfide is a reversible inhibitor of the NADH oxidase activity of synaptic plasma membranes

Hydrogen sulfide is now accepted as a neuromodulator, which can be involved in neuronal defence against oxidative stress insults in the brain. In this work we show that concentrations of H₂S within the physiological range reported in the brain produce a reversible inhibition of the NADH oxidase activity and coupled superoxide anion production by synaptic plasma membranes from rat brain. At physiological pH 7 the concentration of H₂S needed for 50% inhibition of the NADH oxidase activity is 5 ± 1 μM, which is within the low range of the reported physiological H₂S concentrations. Thus, the NADH oxidase activity of the neuronal plasma membrane can act as a sensor of local H₂S depletion in neurones. H₂S inhibition of the NADH oxidase activity of the neuronal plasma membrane can be accounted for direct reduction by H₂S of cytochrome b₅. However, H₂S fails to afford a significant protection against the inhibition of this activity by peroxynitrite. In conclusion, our results point out that H₂S is more potent as inhibitor of reactive oxygen species formation than as a sacrificial antioxidant.