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Alternate subunit assembly diversifies the function of a bacterial toxin.


ABSTRACT: Bacterial toxins with an AB5 architecture consist of an active (A) subunit inserted into a ring-like platform comprised of five delivery (B) subunits. Salmonella Typhi, the cause of typhoid fever, produces an unusual A2B5 toxin known as typhoid toxin. Here, we report that upon infection of human cells, S. Typhi produces two forms of typhoid toxin that have distinct delivery components but share common active subunits. The two typhoid toxins exhibit different trafficking properties, elicit different effects when administered to laboratory animals, and are expressed using different regulatory mechanisms and in response to distinct metabolic cues. Collectively, these results indicate that the evolution of two typhoid toxin variants has conferred functional versatility to this virulence factor. More broadly, this study reveals a new paradigm in toxin biology and suggests that the evolutionary expansion of AB5 toxins was likely fueled by the plasticity inherent to their structural design coupled to the functional versatility afforded by the combination of homologous toxin components.

SUBMITTER: Fowler CC 

PROVIDER: S-EPMC6695444 | biostudies-literature | 2019 Aug

REPOSITORIES: biostudies-literature

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Alternate subunit assembly diversifies the function of a bacterial toxin.

Fowler Casey C CC   Stack Gabrielle G   Jiao Xuyao X   Lara-Tejero Maria M   Galán Jorge E JE  

Nature communications 20190815 1


Bacterial toxins with an AB<sub>5</sub> architecture consist of an active (A) subunit inserted into a ring-like platform comprised of five delivery (B) subunits. Salmonella Typhi, the cause of typhoid fever, produces an unusual A<sub>2</sub>B<sub>5</sub> toxin known as typhoid toxin. Here, we report that upon infection of human cells, S. Typhi produces two forms of typhoid toxin that have distinct delivery components but share common active subunits. The two typhoid toxins exhibit different traf  ...[more]

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