Salmonella Typhoid Toxin PltB Subunit and Its Non-typhoidal Salmonella Ortholog Confer Differential Host Adaptation and Virulence

Typhoidal and non-typhoidal Salmonelleae (NTS) cause typhoid fever and gastroenteritis, respectively, in humans. Salmonella typhoid toxin contributes to typhoid disease progression and chronic infection, but little is known about the role of its NTS ortholog. We found that typhoid toxin and its NTS...

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Bibliographic Details
Published in:Cell host & microbe 2020-06, Vol.27 (6), p.937-949.e6
Main Authors: Lee, Sohyoung, Yang, Yi-An, Milano, Shawn K., Nguyen, Tri, Ahn, Changhwan, Sim, Ji Hyun, Thompson, Andrew J., Hillpot, Eric C., Yoo, Gyeongshik, Paulson, James C., Song, Jeongmin
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Animals
Antitoxins - immunology
bacterial AB toxins
Bacterial Proteins - genetics
Bacterial Proteins - immunology
Bacterial Proteins - metabolism
Bacterial Proteins - toxicity
Bacterial Toxins - genetics
Bacterial Toxins - immunology
Bacterial Toxins - metabolism
Bacterial Toxins - toxicity
Cross Reactions - immunology
cross-reactive protection or immunity
Endotoxins - genetics
Endotoxins - immunology
Endotoxins - metabolism
Endotoxins - toxicity
Female
glycan expression
glycans
HEK293 Cells
Host Adaptation - drug effects
Host Adaptation - physiology
host adaptations
Humans
Male
Mice, Knockout
Polysaccharides - biosynthesis
receptor-binding
Salmonella
Salmonella typhi - immunology
Salmonella typhi - metabolism
Salmonella typhi - pathogenicity
structure of protein toxins
typhoid fever
Typhoid Fever - microbiology
Typhoid Fever - prevention & control
typhoid toxin
Typhoid-Paratyphoid Vaccines - immunology
Virulence
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Summary:Typhoidal and non-typhoidal Salmonelleae (NTS) cause typhoid fever and gastroenteritis, respectively, in humans. Salmonella typhoid toxin contributes to typhoid disease progression and chronic infection, but little is known about the role of its NTS ortholog. We found that typhoid toxin and its NTS ortholog induce different clinical presentations. The PltB subunit of each toxin exhibits different glycan-binding preferences that correlate with glycan expression profiles of host cells targeted by each bacterium at the primary infection or intoxication sites. Through co-crystal structures of PltB subunits bound to specific glycan receptor moieties, we show that they induce markedly different glycan-binding preferences and virulence outcomes. Furthermore, immunization with the NTS S. Javiana or its toxin offers cross-reactive protection against lethal-dose typhoid toxin challenge. Cumulatively, these results offer insights into the evolution of host adaptations in Salmonella AB toxins, their cell and tissue tropisms, and the design for improved typhoid vaccines and therapeutics. [Display omitted] •Typhoid toxin and non-typhoid Javiana toxin induce different clinical presentations•Typhoid toxin PltB uses both α2-3 and α2-6 sialosides to enter target cells•Amino acid variations in Javiana PltB render different glycan-binding preferences•Javiana toxin offers cross-reactive protection against typhoid toxin challenge Through structural and functional analyses of the typhoid-fever-causing Salmonella’s typhoid toxin and its ortholog in non-typhoidal, self-limiting gastroenteritis-causing Salmonella, Lee et al. offer insights into the evolution of host adaptations in Salmonella AB toxins, as well as the design for improved typhoid fever vaccines and therapeutics.
ISSN:1931-3128
1934-6069
DOI:10.1016/j.chom.2020.04.005