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Review
. 2016 Oct 21;4(4):e1251384.
doi: 10.1080/21688370.2016.1251384. eCollection 2016.

Zonulin, a regulator of epithelial and endothelial barrier functions, and its involvement in chronic inflammatory diseases

Craig Sturgeon  1 Alessio Fasano  2
Affiliations
Review

Zonulin, a regulator of epithelial and endothelial barrier functions, and its involvement in chronic inflammatory diseases

Craig Sturgeon et al. Tissue Barriers. .

Abstract

Beside digesting nutrients and absorbing solutes and electrolytes, the intestinal epithelium with its barrier function is in charge of a tightly controlled antigen trafficking from the intestinal lumen to the submucosa. This trafficking dictates the delicate balance between tolerance and immune response causing inflammation. Loss of barrier function secondary to upregulation of zonulin, the only known physiological modulator of intercellular tight junctions, leads to uncontrolled influx of dietary and microbial antigens. Additional insights on zonulin mechanism of action and the recent appreciation of the role that altered intestinal permeability can play in the development and progression of chronic inflammatory disorders has increased interest of both basic scientists and clinicians on the potential role of zonulin in the pathogenesis of these diseases. This review focuses on the recent research implicating zonulin as a master regulator of intestinal permeability linked to the development of several chronic inflammatory disorders.

Keywords: autoimmune disease; barrier function; intestinal permeability; tight junctions; zonulin.

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Figures

Figure 1.
Figure 1.
Proposed effect of environmental stimuli causing changes in microbiome composition leading to CIDs. Pre-, peri-, and/or post-natal environmental factor can affect microbiota composition causing loss of barrier function, increased antigen trafficking, and altered immune response in genetically susceptible individuals eventually leading to the onset of CID.
Figure 2.
Figure 2.
Mechanism of gliadin- and bacteria-induced zonulin release and subsequent increase in intestinal permeability. Gliadin specific peptides or bacteria (1) cause a CXCR-3-mediated, MyD88-dependent zonulin release (2). Zonulin transactivates EGFR through PAR2 leading to PCK-α dependent tight junction disassembly (3). Increased intestinal permeability leads to paracellular passage of non-self antigens (4) into the lamina propria where they are able to interact with the immune system.
Figure 3.
Figure 3.
Proposed mechanism of zonulin in causing loss of barrier function leading to development of CID. Normal barrier trafficking of non-self antigens (antigen sampling), together with specific gut-associated lamina propria cells and cytokines micro milieu leads to mucosal tolerance (1). Environmental stimuli cause microbiome imbalance triggering zonulin release (2) leading to increased antigen influx from gut lumen to the lamina propria (3). Antigens in the lamina propria activate the immune system causing IFN-γ and TNF-α release further exacerbating the increased gut permeability and immune response (4). This leads to a vicious cycle which causes break of tolerance and ultimately, onset of CIDs in genetically predisposed individuals.
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