The neutrophil oxidant hypothiocyanous acid causes a thiol-specific stress response and an oxidative shift of the bacillithiol redox potential in Staphylococcus aureus

Loi VV, Busche T, Schnaufer F, Kalinowski J, Antelmann H (2023)
Microbiology Spectrum : e0325223.

Zeitschriftenaufsatz | E-Veröff. vor dem Druck | Englisch
 
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Autor*in
Loi, Vu Van; Busche, TobiasUniBi; Schnaufer, Franziska; Kalinowski, JörnUniBi; Antelmann, Haike
Abstract / Bemerkung
During infections, Staphylococcus aureus is exposed to hypochlorous acid (HOCl) and hypothiocyanous acid (HOSCN), which are produced by the neutrophil myeloperoxidase as potent antimicrobial killing agents. In this work, we applied RNAseq transcriptomics, Brx-roGFP2 biosensor measurements, and phenotype analyses to investigate the stress responses and defense mechanisms of S. aureus COL toward HOSCN stress. Based on the RNAseq transcriptome profile, HOSCN exerts strong thiol-specific oxidative, electrophile, and metal stress responses as well as protein damage in S. aureus, which is indicated by the strong induction of the HypR, TetR1, PerR, QsrR, MhqR, CstR, CsoR, CzrA, AgrA, HrcA, and CtsR regulons. Phenotype analyses of various mutants in HOSCN-responsive genes revealed that the HOSCN reductase MerA conferred the highest resistance toward HOSCN stress in S. aureus COL, whereas the QsrR and MhqR electrophile stress regulons do not contribute to protection. Brx-roGFP2 biosensor measurements and bacillithiol (BSH)-specific Western blot analyses revealed a strong oxidative shift of the bacillithiol redox potential (EBSH) and increased S-bacillithiolations in S. aureus, indicating that BSH is oxidized to bacillithiol disulfide (BSSB) under HOSCN stress. While the ΔmerA mutant was delayed in recovery of the reduced EBSH, overproduction of MerA in the ΔhypR mutant enabled faster recovery of EBSH due to efficient HOSCN detoxification. Moreover, both MerA and BSH were shown to contribute to HOSCN resistance in growth assays. In summary, HOSCN provokes a thiol-specific oxidative, electrophile, and metal stress response, an oxidative shift in EBSH and increased S-bacillithiolation in S. aureus.
Erscheinungsjahr
2023
Zeitschriftentitel
Microbiology Spectrum
Art.-Nr.
e0325223
eISSN
2165-0497
Page URI
https://pub.uni-bielefeld.de/record/2984306

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Loi VV, Busche T, Schnaufer F, Kalinowski J, Antelmann H. The neutrophil oxidant hypothiocyanous acid causes a thiol-specific stress response and an oxidative shift of the bacillithiol redox potential in Staphylococcus aureus. Microbiology Spectrum . 2023: e0325223.
Loi, V. V., Busche, T., Schnaufer, F., Kalinowski, J., & Antelmann, H. (2023). The neutrophil oxidant hypothiocyanous acid causes a thiol-specific stress response and an oxidative shift of the bacillithiol redox potential in Staphylococcus aureus. Microbiology Spectrum , e0325223. https://doi.org/10.1128/spectrum.03252-23
Loi, Vu Van, Busche, Tobias, Schnaufer, Franziska, Kalinowski, Jörn, and Antelmann, Haike. 2023. “The neutrophil oxidant hypothiocyanous acid causes a thiol-specific stress response and an oxidative shift of the bacillithiol redox potential in Staphylococcus aureus”. Microbiology Spectrum : e0325223.
Loi, V. V., Busche, T., Schnaufer, F., Kalinowski, J., and Antelmann, H. (2023). The neutrophil oxidant hypothiocyanous acid causes a thiol-specific stress response and an oxidative shift of the bacillithiol redox potential in Staphylococcus aureus. Microbiology Spectrum :e0325223.
Loi, V.V., et al., 2023. The neutrophil oxidant hypothiocyanous acid causes a thiol-specific stress response and an oxidative shift of the bacillithiol redox potential in Staphylococcus aureus. Microbiology Spectrum , : e0325223.
V.V. Loi, et al., “The neutrophil oxidant hypothiocyanous acid causes a thiol-specific stress response and an oxidative shift of the bacillithiol redox potential in Staphylococcus aureus”, Microbiology Spectrum , 2023, : e0325223.
Loi, V.V., Busche, T., Schnaufer, F., Kalinowski, J., Antelmann, H.: The neutrophil oxidant hypothiocyanous acid causes a thiol-specific stress response and an oxidative shift of the bacillithiol redox potential in Staphylococcus aureus. Microbiology Spectrum . : e0325223 (2023).
Loi, Vu Van, Busche, Tobias, Schnaufer, Franziska, Kalinowski, Jörn, and Antelmann, Haike. “The neutrophil oxidant hypothiocyanous acid causes a thiol-specific stress response and an oxidative shift of the bacillithiol redox potential in Staphylococcus aureus”. Microbiology Spectrum (2023): e0325223.

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