Involvement of a mycothiol-dependent reductase NCgl0018 in oxidative stress response of Corynebacterium glutamicum

Corynebacterium glutamicum is an important industrial strain for amino acids and a key model organism for human pathogens. The study of C. glutamicum oxidoreductases, such as mycoredoxin 1 ( Mrx1), dithiol-disulfide isomerase DsbA, and DsbA-like Mrx1, is helpful for understanding the survival, pathogenic infection, and stress resistance of its homologous species. However, the action mode and enzymatic function of C. glutamicum NCgl0018 preserving the Cys-Pro-Phe- Cys motif, annotated as a putative DsbA, have remained enigmatic. Here, we report that the NCgl0018-deleted strain increased sensitivity to various oxidative stresses. The ncgl0018 expression was induced in the stress-responsive extracytoplasmic function-sigma (ECF-sigma) factor SigH- and organic peroxide- and antibioticsensing regulator (OasR)-dependent manner by stress. NCgl0018 reduced S- mycothiolated mixed disulfides and intramolecular disulfides via a monothiol-disulfide mechanism preferentially linking the mycothiol/mycothione reductase/NADPH electron pathway. Site-directed mutagenesis confirmed Cys107 was the resolving Cys residue, while Cys104 was the nucleophilic cysteine that was oxidized to a sulfenic acid and then could form an intramolecular disulfide bond with Cys107 or a mixed disulfide with mycothiol under stress. Biochemical analyses indicated that NCgl0018 lacked oxidase properties like the classical DsbA. Further, enzymatic rates and substrate preferences of NCgl0018 were highly similar to those of DsbA-like Mrx1. Collectively, our study presented the first evidence that NCgl0018 protected against stresses by functioning as a novel DsbA- like Mrx1 but not DsbA and Mrx1.