Plasma-Derived Polyreactive Secretory-Like IgA and IgM Opsonizing Salmonella enterica Typhimurium Reduces Invasion and Gut Tissue Inflammation through Agglutination.

Gilles Bioley,Justine Monnerat,Marius Lötscher,Blaise Corthésy,Cédric Vonarburg,Adrian Zuercher

doi:10.3389/fimmu.2017.01043

Gilles Bioley, Justine Monnerat + Show 4 more

Open Access

https://doi.org/10.3389/fimmu.2017.01043

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Abstract

Due to the increasing emergence of antibiotic-resistant strains of enteropathogenic bacteria, development of alternative treatments to fight against gut infections is a major health issue. While vaccination requires that a proper combination of antigen, adjuvant, and delivery route is defined to elicit protective immunity at mucosae, oral delivery of directly active antibody preparations, referred to as passive immunization, sounds like a valuable alternative. Along the gut, the strategy suffers, however, from the difficulty to obtain sufficient amounts of antibodies with the appropriate specificity and molecular structure for mucosal delivery. Physiologically, at the antibody level, the protection of gastrointestinal mucosal surfaces against enteropathogens is principally mediated by secretory IgA and secretory IgM. We previously demonstrated that purified human plasma-derived IgA and IgM can be associated with secretory component to generate biologically active secretory-like IgA and IgM (SCIgA/M) that can protect epithelial cells from infection by Shigella flexneri in vitro. In this study, we aimed at evaluating the protective potential of these antibody preparations in vivo. We now establish that such polyreactive preparations bind efficiently to Salmonella enterica Typhimurium and trigger bacterial agglutination, as observed by laser scanning confocal microscopy. Upon delivery into a mouse ligated intestinal loop, SCIgA/M-mediated aggregates persist in the intestinal environment and limit the entry of bacteria into intestinal Peyer’s patches via immune exclusion. Moreover, oral administration to mice of immune complexes composed of S. Typhimurium and SCIgA/M reduces mucosal infection, systemic dissemination, and local inflammation. Altogether, our data provide valuable clues for the future appraisal of passive oral administration of polyreactive plasma-derived SCIgA/M to combat infection by a variety of enteropathogens.

Highlights

Mucosal surfaces lining the gastrointestinal, the respiratory, and the genito-urinary tracts are the first port of entry for infectious agents, including bacteria, viruses, fungi, and parasites
We previously demonstrated that purified human plasma-derived IgA and IgM can be associated with secretory component to generate biologically active secretory-like IgA and IgM (SCIgA/M) that can protect epithelial cells from infection by Shigella flexneri in vitro
The same held true for IgM, secretory-like IgM (SCIgM), IgA/M, and SCIgA/M preparations, which all demonstrated a potent capacity to interact with the bacterium

Summary

Introduction

Mucosal surfaces lining the gastrointestinal, the respiratory, and the genito-urinary tracts are the first port of entry for infectious agents, including bacteria, viruses, fungi, and parasites. Mucosal delivery of preparations containing specific antibodies has allowed to demonstrate that passive immunization reduces infection in various species, including humans [5,6,7,8]. This implies that sufficient amounts of antibody molecules are delivered in a biologically active form at the site of action. Proper anchoring of the antibodies in the mucus lining the epithelium requires that SC is present in the molecule [10, 11] Such biochemical features argue for an essential role for SC in SIgA function, which remains in need of characterization in a gastrointestinal model of infection. No data exist as to the role of (S)IgM in a similar environment

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