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SOD1 Catalyses Thiol Oxidation to Thiosulfinates

Created on 06 Jun 2026

Authors

Switzer, C.

Abstract

Cu/Zn superoxide dismutase (SOD1) is canonically regarded as a superoxide scavenging antioxidant yet is paradoxically associated with multiple diseases. Here, we show that SOD1 catalyzes thiol oxidation to thiosulfinates (RS(O)SR), revealing a previously unrecognized copper mediated oxidant forming reaction in biology. Steady state kinetics demonstrate robust, O2 dependent thiol consumption, and ATR FTIR spectra of the SOD1-cysteine reaction display S--O bands ({approx}1042/1169 cm-1) identical to cysteine thiosulfinate, including matching pseudo-first order decay in excess cysteine. SOD1 generated thiosulfinates are potent electrophiles and oxidants, supported by dimedone trapping and O-atom transfer to TCEP and horseradish peroxidase, with alkaline lability consistent with thiosulfinate hydrolysis rather than H2O2. Exogenous thiosulfinates phenocopy SOD1 mediated thiol oxidation, including GSH depletion, protein sulfenylation and cytotoxicity. SOD1 inhibition strongly suppresses cysteine and homocysteine induced toxicity, demonstrating that thiol driven oxidative stress requires SOD1 activity. SOD1 overexpression in human cells triggers oxidative stress and reduces proliferation, an effect that is absent in a copper-deficient mutant. N-acetylcysteine treatment further amplified this SOD1-dependent oxidative stress. At lower levels, nanomolar thiosulfinates elicit a hormetic proliferative response and rescue SOD1 deficient growth, identifying a pro-growth signaling function mediated by basal thiosulfinate formation. Kinetic modelling indicates that thiol-thiosulfinate turnover can match basal superoxide dismutation, indicating that thiosulfinate synthesis is a major catalytic output of SOD1. These findings identify SOD1 as a thiol oxidizing enzyme that generates thiosulfinates, establishing a core sulfur-based oxidation pathway and revealing that two classical antioxidants, SOD1 and thiols, together generate potent oxidants that link thiol metabolism to both cytotoxic and growth promoting outcomes.

Preprint server: bioRxiv
The authors list and abstract were imported from bioRxiv on 06 Jun 2026.

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