Coordination of prophage and global regulator leads to high enterotoxin production in staphylococcal food poisoning-associated lineage.
Yusuke Sato'oJunzo HisatsuneFatkhanuddin AzizNobuyuki TatsukawaMari Shibata-NakagawaHisaya K OnoIkunori NaitoKatsuhiko OmoeMotoyuki SugaiPublished in: Microbiology spectrum (2024)
, with Staphylococcal enterotoxin A (SEA) being commonly involved in many cases. Thus, SEA has been recognized as a major toxin type. However, despite almost a century since its discovery, the complete mechanism of SEA production is as yet unknown. In this study, we analyzed an SEA-producing SFP clone isolated in East Asia and discovered that this strain, besides acquiring the high SEA-producing phage, exhibits remarkably high SEA production due to the low activity of SarS, an intrinsic regulatory factor. This is the first report documenting the evolution of the SFP clone through the coordinated action of exogenous mobile genetic factors and endogenous regulators on this notorious toxin.