Using Neutrons to Elucidate the Catalytic Shift from Superoxide Dismutase to Peroxidase Activity in Fe-Substituted Human MnSOD
Miles Graham, Gloria E. O. Borgstahl

TL;DR
This study uses neutrons to understand how Fe-substituted human MnSOD switches from antioxidant to prooxidant activity, which could help in targeting cancer therapies.
Contribution
The paper introduces neutron crystallography as a novel method to study the catalytic shift in FeSOD2, overcoming limitations of traditional techniques.
Findings
X-ray data shows FeSOD2 can be manipulated into different redox states and binds substrate effectively.
XAS reveals the Fe center oscillates between 2+ and 3+ oxidation states during catalysis.
The findings support the feasibility of neutron crystallography for elucidating the PCET mechanism in FeSOD2.
Abstract
Human manganese superoxide dismutase (MnSOD2) is a metallo-oxidoreductase localized to the mitochondrial matrix. Its canonical function is as an antioxidant, neutralizing superoxide radicals generated during the electron transport chain (ETC). By converting superoxide into hydrogen peroxide and molecular oxygen, MnSOD2 safeguards sensitive metabolic enzymes from oxidative damage and facilitates mitochondrial redox signaling via membrane-diffusible hydrogen peroxide. At the core of MnSOD2’s activity is a proton-coupled electron transfer (PCET) mechanism driven by the cyclical oxidation and reduction of the active-site Mn. The clinical relevance of MnSOD2 is contradictory: downregulation promotes tumorigenesis, while upregulation promotes increased malignancy and metastatic activity in established tumors. Recent investigations into the mechanism underpinning this dichotomy have suggested…
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Taxonomy
TopicsElectrochemical sensors and biosensors · Redox biology and oxidative stress
