Reactions of ferric hemoglobin and myoglobin with hydrogen sulfide under physiological conditions.

Reactions of ferric hemoglobin and myoglobin with hydrogen sulfide under physiological conditions. J Inorg Biochem. 2018 Feb 10;182:133-140 Authors: Jensen B, Fago A Abstract Ferric hemoglobin (metHb) and myoglobin (metMb), present at low levels in vivo, have been recently found to oxidize hydrogen sulfide (H2S) in excess, thus potentially contributing to removal of toxic H2S in blood and heart, respectively. Here, we present a kinetic and thermodynamic study of the reaction of metHb and metMb with H2S under physiological conditions, i.e. at low H2S concentrations and with protein in excess of H2S. We show here that both proteins react with sub-stoichiometric H2S:heme ratios following two processes: a fast reversible binding of H2S to ferric heme that prevails at high H2S and a slow heme reduction to the ferrous state that prevails at low H2S. While these two processes are fast for metMb, H2S-induced heme reduction is slow for metHb and the metHb-H2S complex once formed is therefore relatively stable. We find that metHb binds H2S reversibly and cooperatively with a pH-dependent ligand affinity that is within the physiological range of H2S concentrations found in blood. Stopped-flow kinetics show identical association rate constants for H2S at varying pH, demonstrating that H2S and not HS- enters the ferric heme pocket. Dissociation rates of the metHb-H2S complex increase when decreasing pH, consistent with the pH-dependent affinity. ...
Source: Journal of Inorganic Biochemistry - Category: Biochemistry Authors: Tags: J Inorg Biochem Source Type: research