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High-avidity IgA protects the intestine by enchaining growing bacteria

Moor, Kathrin and Diard, Médéric and Sellin, Mikael E. and Felmy, Boas and Wotzka, Sandra Y. and Toska, Albulena and Bakkeren, Erik and Arnoldini, Markus and Bansept, Florence and Co, Alma Dal and Völler, Tom and Minola, Andrea and Fernandez-Rodriguez, Blanca and Agatic, Gloria and Barbieri, Sonia and Piccoli, Luca and Casiraghi, Costanza and Corti, Davide and Lanzavecchia, Antonio and Regoes, Roland R. and Loverdo, Claude and Stocker, Roman and Brumley, Douglas R. and Hardt, Wolf-Dietrich and Slack, Emma. (2017) High-avidity IgA protects the intestine by enchaining growing bacteria. Nature, 544 (7651). pp. 498-502.

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Official URL: https://edoc.unibas.ch/64691/

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Abstract

Vaccine-induced high-avidity IgA can protect against bacterial enteropathogens by directly neutralizing virulence factors or by poorly defined mechanisms that physically impede bacterial interactions with the gut tissues ('immune exclusion'). IgA-mediated cross-linking clumps bacteria in the gut lumen and is critical for protection against infection by non-typhoidal Salmonella enterica subspecies enterica serovar Typhimurium (S. Typhimurium). However, classical agglutination, which was thought to drive this process, is efficient only at high pathogen densities (≥10; 8; non-motile bacteria per gram). In typical infections, much lower densities (10; 0; -10; 7; colony-forming units per gram) of rapidly dividing bacteria are present in the gut lumen. Here we show that a different physical process drives formation of clumps in vivo: IgA-mediated cross-linking enchains daughter cells, preventing their separation after division, and clumping is therefore dependent on growth. Enchained growth is effective at all realistic pathogen densities, and accelerates pathogen clearance from the gut lumen. Furthermore, IgA enchains plasmid-donor and -recipient clones into separate clumps, impeding conjugative plasmid transfer in vivo. Enchained growth is therefore a mechanism by which IgA can disarm and clear potentially invasive species from the intestinal lumen without requiring high pathogen densities, inflammation or bacterial killing. Furthermore, our results reveal an untapped potential for oral vaccines in combating the spread of antimicrobial resistance.
Faculties and Departments:05 Faculty of Science > Departement Biozentrum > Infection Biology > Pathogen Evolution (Diard)
UniBasel Contributors:Diard, Médéric
Item Type:Article, refereed
Article Subtype:Research Article
ISSN:1476-4687
Note:Publication type according to Uni Basel Research Database: Journal article
Identification Number:
Last Modified:12 Feb 2019 16:43
Deposited On:12 Feb 2019 16:43

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