Clémentine Perrier scite author profile

Intestinal permeability is a critical feature of the gastrointestinal epithelium as it must allow an efficient passage of nutrients and restrict the entry of larger molecules, such as protein antigen, in order to facilitate appropriate immune responses towards food antigens. The proper regulation of the epithelial barrier relies on multiple, intricate physiological and immunologic mechanisms, in terms of which recent progresses regarding the cellular and molecular components have been unravelled. In genetically predisposed individuals, breakdown of oral tolerance can occur, leading to the inadequate production of allergen-specific IgE and the recruitment of mast cells in the gastrointestinal mucosa. Under such conditions, the intestinal permeability towards allergen is altered via different mechanisms, with IgE-CD23-mediated transport across the mucosa playing an important amplification role. Additionally, during the effector phase of the allergic reaction, when mast cells degranulate, a series of inflammatory mediators, such as proteases and cytokines, are released and further affects intestinal permeability. This leads to an increase in the passage of allergens and hence contributes to perpetuate the inflammatory reaction. In this review, we describe the importance of properly balanced intestinal permeability in oral tolerance induction and address the processes involved in damaging the intestinal barrier in the sensitized epithelium and during allergic reactions. We conclude by speculating on the effect of increased intestinal permeability on the onset of sensitization towards dietary antigens.

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Predictive value of epithelial gene expression profiles for response to infliximab in Crohnʼs disease‡

Arijs

Quintens

Lommel

et al. 2010

Inflammatory Bowel Diseases

153

112

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Rotavirus Anti-VP6 Secretory Immunoglobulin A Contributes to Protection via Intracellular Neutralization but Not via Immune Exclusion

Corthésy¹,

Benureau

Perrier³

et al. 2006

J Virol

115

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Immunoglobulin A (IgA) monoclonal antibodies (MAbs) directed at the conserved inner core protein VP6 of rotavirus, such as the IgA7D9 MAb, provide protective immunity in adult and suckling mice when delivered systemically. While these antibodies do not have traditional in vitro neutralizing activity, they could mediate their antiviral activity either by interfering with the viral replication cycle along the IgA secretory pathway or by acting at mucosal surfaces as secretory IgA and excluding virus from target enterocytes. We sought to determine the critical step at which antirotaviral activity was initiated by the IgA7D9 MAb. The IgA7D9 MAb appeared to directly interact with purified triple-layer viral particles, as shown by immunoprecipitation and immunoblotting. However, protection was not conferred by passively feeding mice with the secretory IgA7D9 MAb. This indicates that the secretory IgA7D9 MAb does not confer protection by supplying immune exclusion activity in vivo. We next evaluated the capacity of polymeric IgA7D9 MAb to neutralize rotavirus intracellularly during transcytosis. We found that when polymeric IgA7D9 MAb was applied to the basolateral pole of polarized Caco-2 intestinal cells, it significantly reduced viral replication and prevented the loss of barrier function induced by apical exposure of the cell monolayer to rotavirus, supporting the conclusion that the antibody carries out its antiviral activity intracellularly. These findings identify a mechanism whereby the well-conserved immunodominant VP6 protein can function as a target for heterotypic antibodies and protective immunity.Rotavirus (RV) is the main cause of severe diarrhea in young infants worldwide and is responsible for 611,000 deaths per year (36). Two vaccines based on attenuated live viruses have recently completed successful phase III clinical trials and showed efficacy in preventing severe RV diarrhea caused by multiple serotypes (45, 50). However, the relevant immune effectors required for achieving protection against diverse circulating strains are still a matter of considerable debate. While CD8 ϩ T cells facilitate the timely clearance of rotavirus infection, B cells with the appropriate pattern of mucosal homing receptors and antibody production have been demonstrated as crucial for protection from reinfection (17, 24).Neutralizing antibodies against RV that block viral replication in cell culture are felt to play a major role in defense. A variety of passive antibody transfer studies in animals (28), as well as immunization studies using selected rotavirus reassortants in humans (7), have demonstrated a clear role for VP4 and VP7 in protective immunity. Neutralizing antibodies are directed against the outer shell VP4 and VP7 proteins, whose variable antigenic specificities define multiple serotypes, assigned as P and G serotypes, respectively (41). Worldwide, the G1-to-G4 serotypes associated with P4 and P8 and the more recently described G9/P6 or P8 serotypes are globally important rotavirus G/P combinations in human...

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