Journal
CHEMICO-BIOLOGICAL INTERACTIONS
Volume 260, Issue -, Pages 42-49Publisher
ELSEVIER IRELAND LTD
DOI: 10.1016/j.cbi.2016.10.018
Keywords
F1Fo-ATPase; Mitochondria; Oxidative phosphorylation; Mercury; Thiol groups
Funding
- University of Bologna (RFO grant)
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In spite of the known widespread toxicity of mercury, its impact on mitochondrial bioenergetics is a still poorly explored topic. Even if many studies have dealt with mercury poisoning of mitochondrial respiration, as far as we are aware Hg2+ effects on individual complexes are not so clear. In the present study changes in swine heart mitochondrial respiration and F1Fo-ATPase (F-ATPase) activity promoted by micromolar Hg2+ concentrations were investigated. Hg2+ was found to inhibit the respiration of NADH-energized mitochondria, whereas it was ineffective when the substrate was succinate. Interestingly, the same micromolar Hg2+ doses which inhibited the NADH-O-2 activity stimulated the F-ATPase, most likely by interacting with adjacent thiol residues. Accordingly, Hg2+ dose-dependently decreased protein thiols and all the elicited effects on mitochondrial complexes were reversed by the thiol reducing agent DTE. These findings clearly indicate that Hg2+ interacts with Cys residues of these complexes and differently modulate their functionality by modifying the redox state of thiol groups. The results, which cast light on some implications of metal-thiol interactions up to now not fully explored, may contribute to clarify the molecular mechanisms of mercury toxicity to mitochondria. (C) 2016 Elsevier Ireland Ltd. All rights reserved.
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