Mucus-derived glycans are inhibitory signals for Salmonella Typhimurium SPI-1-mediated invasion
Author(s)
Wheeler, Kelsey M.; Gold, Michaela A.; Stevens, Corey A.; Tedin, Karsten; Wood, Amanda M.; Uzun, Deniz; Cárcamo-Oyarce, Gerardo; Turner, Bradley S.; Fulde, Marcus; Song, Jeongmin; Kramer, Jessica R.; Ribbeck, Katharina; ... Show more Show less
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Mucus forms a critical barrier against enteric pathogens like Salmonella enterica serovar Typhimurium. While in vivo studies indicate that secreted, gel-forming mucins and specifically core 3 glycosylation are protective against S. Typhimurium, the molecular mechanisms involved remain unclear. Here, we demonstrate that native intestinal mucins inhibit Salmonella invasion of colonic epithelial cells by downregulating the type 3 secretion system through suppression of the key virulence regulator, HilD. Our study identifies mucin glycans and specific mucin sugars, namely N-acetyl galactosamine and N-acetyl glucosamine, as the components responsible for mucin’s anti-virulence effect, likely via functional or direct interaction with HilD’s putative carbohydrate-binding domain. Notably, we find that the native presentation of these sugars is important for activity. These insights provide a mechanistic foundation for mucin-based strategies to combat enteric infections and, given the prevalence of homologous AraC-type regulators in other pathogens, suggest mucins’ potential as broad-spectrum anti-virulence agents.
Date issued
2025-09-23Department
Massachusetts Institute of Technology. Department of Biological Engineering; Massachusetts Institute of Technology. Microbiology Graduate ProgramJournal
Cell Reports
Publisher
Elsevier BV
Citation
Mucus-derived glycans are inhibitory signals for Salmonella Typhimurium SPI-1-mediated invasion. Wheeler, Kelsey M. et al. Cell Reports, 116304.
Version: Final published version
ISSN
2211-1247