The structure of model and peptide disulfides markedly affects their reactivity and products formed with singlet oxygen

Qing Gao, Katarzyna Grzyb, Luke F. Gamon, Peter R. Ogilby, Tomasz Pędziński, Michael J. Davies*

*Corresponding author af dette arbejde

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningpeer review

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Abstract

Disulfide bonds are critical structural elements in proteins and stabilize folded structures. Modification of these linkages is associated with a loss of structure and function. Previous studies have reported large variations in the rate of disulfide oxidation by hypohalous acids, due to stabilization of reaction intermediates. In this study we hypothesized that considerable variation (and hence selective oxidation) would occur with singlet oxygen (1O2), a key intermediate in photo-oxidation reactions. The kinetics of disulfide-mediated 1O2 removal were monitored using the time-resolved 1270 nm phosphorescence of 1O2. Stern-Volmer plots of these data showed a large variation (∼103) in the quenching rate constants kq (from 2 × 107 for α-lipoic acid to 3.6 × 104 M−1s−1 for cystamine). The time course of disulfide loss and product formation (determined by LC-MS) support a role for 1O2, with mono- and di-oxygenated products detected. Elevated levels of these latter species were generated in D2O- compared to H2O buffers, which is consistent with solvent effects on the 1O2 lifetime. These data are interpreted in terms of the intermediacy of a zwitterion [–S+(OO)–S–], which either isomerizes to a thiosulfonate [–S(O)2–S–] or reacts with another parent molecule to give two thiosulfinates [–S(O)–S-]. The variation in quenching rates and product formation are ascribed to zwitterion stabilization by neighboring, or remote, lone pairs of electrons. These data suggest that some disulfides, including some present within or attached to proteins (e.g., α-lipoic acid), may be selectively modified, and undergo subsequent cleavage, with adverse effects on protein structure and function.

OriginalsprogEngelsk
TidsskriftFree Radical Biology and Medicine
Vol/bind207
Sider (fra-til)320-329
ISSN0891-5849
DOI
StatusUdgivet - 2023

Bibliografisk note

Funding Information:
This work was supported by the Novo Nordisk Foundation (Laureate Research Grants: NNF13OC0004294 and NNF20SA0064214 to MJD), the China Scholarship Council (PhD scholarship 202108120031 to Qing Gao) and the Lundbeck Foundation ( R322-2019-2337 to LFG).

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© 2023 The Authors

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