Issue 4, 2024

The role of the terminal cysteine moiety in a metallopeptide mimicking the active site of the NiSOD enzyme

Abstract

Superoxide dismutase (SOD) enzymes are pivotal in regulating oxidative stress. In order to model Ni containing SOD enzymes, the results of the thermodynamic, spectroscopic and SOD activity studies on the complexes formed between nickel(II) and a NiSOD related peptide, CysCysAspLeuProCysGlyValTyr–NH2 (wtCC), are reported. Cysteine was introduced to replace the first histidine residue in the amino acid sequence of the active site of the NiSOD enzyme. The novel peptide exhibits 3 times higher metal binding affinity compared to the native NiSOD fragment. This is due to the presence of the first cysteine in the coordination sphere of nickel(II). At physiological pH, the (NH2,S,S,S) coordinated complex is the major species. This coordination mode is altered when one thiolate group is replaced by an amide nitrogen of the peptide backbone above pH 7.5. The nickel complexes of wtCC exhibit similar SOD activity to that of the complex formed with the active site fragment of the native NiSOD. The reaction between the complexes and the superoxide anion was studied by the sequential stopped-flow method. These studies revealed that the nickel(II) complex is always in excess over the nickel(III) complex during the dismutation process. However, the nickel(III) species is also involved in a relatively fast degradation process. This unambiguously proves that a protective mechanism must be operative in the NiSOD enzyme which prevents the oxidation of the sulfur atom of cysteine in the presence of O2. The results provide new possibilities for the use of NiSOD mimics in bio- and industrial catalytic processes.

Graphical abstract: The role of the terminal cysteine moiety in a metallopeptide mimicking the active site of the NiSOD enzyme

Supplementary files

Article information

Article type
Paper
Submitted
31 10 2023
Accepted
11 12 2023
First published
12 12 2023

Dalton Trans., 2024,53, 1648-1656

The role of the terminal cysteine moiety in a metallopeptide mimicking the active site of the NiSOD enzyme

D. Bonczidai-Kelemen, K. Tóth, I. Fábián and N. Lihi, Dalton Trans., 2024, 53, 1648 DOI: 10.1039/D3DT03638C

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