Authors
Wiemann, V., Puls, J.-S., Tanabe, T. S., Daniel, J.-M., Sekar, S., Heilbronner, S., Schneider, T., Dahl, C., Grein, F., Fliesswasser, T.
Abstract
The genus Staphylococcus contains important human commensals and pathogens, including methicillin-resistant Staphylococcus aureus (MRSA), which is a frequent colonizer of humans and a leading cause of healthcare-associated and life-threatening infections. While its virulence and pathogenicity have been extensively studied, factors driving the colonization and distribution of MRSA as a pathobiont are less understood. Here, we report on a cst sulfide detoxification gene cluster located on SCCmec, the antibiotic resistance-mediating genetic element of MRSA. Bioinformatic analyses revealed a heterogeneous distribution of cst clusters in staphylococcal genomes and that many clinically relevant SCCmec types introduce an additional cst cluster (cst2) to MRSA. While the canonical cst cluster (cst1) consists of the five genes tauE, cstR, cstA, cstB, and sqr, most staphylococcal cst clusters, including the SCCmec-located cst2, lack the sqr gene, which encodes for a sulfide:quinone reductase responsible for the initial step of sulfide detoxification. Growth experiments with a diverse set of representative Staphylococcus strains, cst-deletion mutants, and complementation with cst-containing plasmids demonstrated that the cst cluster enables sqr-independent polysulfide-detoxification. Furthermore, the additional cst2 cluster confers high polysulfide tolerance to MRSA, providing the pathogen with a unique advantage in polysulfide-rich environments. Using serial passaging co-cultivation experiments with methicillin-sensitive S. aureus (MSSA) strains, we demonstrated that in the presence of polysulfides cst2-containing MRSA can invade an established MSSA population and outperform the occupying resident in direct competition. Overall, our findings indicate that polysulfides are critical stress factors for staphylococci, potentially contributing to the spread of cst2-containing SCCmec and MRSA.
Preprint server:
bioRxiv
The authors list and abstract were imported from bioRxiv on 29 Jan 2026.
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