Tight Junctions as Targets and Effectors of Mucosal Immune Homeostasis.
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TLDR
This review explores current understanding of this complex interplay between tight junctions and immunity in the gastrointestinal tract and finds modulation of tight junction barrier conductance can impact immune homeostasis and diverse pathologies.Abstract:
Defective epithelial barrier function is present in maladies including epidermal burn injury, environmental lung damage, renal tubular disease, and a range of immune-mediated and infectious intestinal disorders. When the epithelial surface is intact, the paracellular pathway between cells is sealed by the tight junction. However, permeability of tight junctions varies widely across tissues and can be markedly impacted by disease. For example, tight junctions within the skin and urinary bladder are largely impermeant and their permeability is not regulated. In contrast, tight junctions of the proximal renal tubule and intestine are selectively permeable to water and solutes on the basis of their biophysical characteristics and, in the gut, can be regulated by the immune system with remarkable specificity. Conversely, modulation of tight junction barrier conductance, especially within the gastrointestinal tract, can impact immune homeostasis and diverse pathologies. Thus, tight junctions are both effectors and targets of immune regulation. Using the gastrointestinal tract as an example, this review explores current understanding of this complex interplay between tight junctions and immunity.read more
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References
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Junctional complexes in various epithelia
TL;DR: The tight junction is impervious to concentrated protein solutions and appears to function as a diffusion barrier or "seal," and the desmosome and probably also the zonula adhaerens may represent intercellular attachment devices.
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Intestinal mucosal barrier function in health and disease.
TL;DR: Recent advances have uncovered mechanisms by which the intestinal mucosal barrier is regulated in response to physiological and immunological stimuli, along with evidence that this regulation shapes mucosal immune responses in the gut and, when dysfunctional, may contribute to disease.
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Occludin: a novel integral membrane protein localizing at tight junctions.
TL;DR: An integral membrane protein localizing at tight junctions is now identified, which is designated as "occludin," which was revealed by a hydrophilicity plot that was very similar to that of connexin, an integral membraneprotein in gap junctions.
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Claudin-1 and -2: Novel Integral Membrane Proteins Localizing at Tight Junctions with No Sequence Similarity to Occludin
TL;DR: It is indicated that multiple integral membrane proteins with four putative transmembrane domains, occludin and claudins, constitute TJ strands.
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Identification of ZO-1 : a high molecular weight polypeptide associated with the tight junction (zonula occludens) in a variety of epithelia
TL;DR: Immunoblot analysis of Madin-Darby canine kidney cells demonstrates the presence of a polypeptide similar in molecular weight to that detected in liver, suggesting that this protein is potentially a ubiquitous component of all mammalian tight junctions.