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      Toll-like receptor 2 regulates the barrier function of human bronchial epithelial monolayers through atypical protein kinase C zeta, and an increase in expression of claudin-1

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          Abstract

          We investigated the role of Toll-like receptor (TLR) 2 in maintaining the integrity of the airway epithelial barrier using the human bronchial epithelial cell line Calu-3. Activation of TLR2 by its ligands, Pam3CysSK4 and Peptidoglycan showed a concentration dependent increase in epithelial barrier function, as measured by transepithelial electrical resistance (TEER). This was confirmed by a decrease in paracellular flux of fluorescein sodium. This TLR2 induced increase in TEER was significantly reduced by pretreatment with polyclonal anti-human TLR2-neutralizing antibody. TLR2 stimulation in Calu-3 cell monolayers resulted in an increased expression of the tight junction proteins claudin-1 and ZO-1, and a decreased expression of occludin, at both the mRNA and protein levels. A pseudosubstrate inhibitor to PKCζ significantly prevented the TLR2 mediated increase in barrier function. It also prevented the increase in claudin-1 in a concentration dependent manner up to 1 µM. TLR2 stimulation led to an increase in phosphorylation of atypical PKC ζ, which was prevented by the pseudosubstrate inhibitor in a concentration dependent manner. Taken together, our observations support a model whereby increased tight junction barrier function induced by activation of TLR2 occurs through increased expression of claudin-1, and through modulation of PKC ζ activity.

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          Claudin-based tight junctions are crucial for the mammalian epidermal barrier

          Mikio Furuse, Masaki Hata, Kyoko Furuse (2002)
          The tight junction (TJ) and its adhesion molecules, claudins, are responsible for the barrier function of simple epithelia, but TJs have not been thought to play an important role in the barrier function of mammalian stratified epithelia, including the epidermis. Here we generated claudin-1–deficient mice and found that the animals died within 1 d of birth with wrinkled skin. Dehydration assay and transepidermal water loss measurements revealed that in these mice the epidermal barrier was severely affected, although the layered organization of keratinocytes appeared to be normal. These unexpected findings prompted us to reexamine TJs in the epidermis of wild-type mice. Close inspection by immunofluorescence microscopy with an antioccludin monoclonal antibody, a TJ-specific marker, identified continuous TJs in the stratum granulosum, where claudin-1 and -4 were concentrated. The occurrence of TJs was also confirmed by ultrathin section EM. In claudin-1–deficient mice, claudin-1 appeared to have simply been removed from these TJs, leaving occludin-positive (and also claudin-4–positive) TJs. Interestingly, in the wild-type epidermis these occludin-positive TJs efficiently prevented the diffusion of subcutaneously injected tracer (∼600 D) toward the skin surface, whereas in the claudin-1–deficient epidermis the tracer appeared to pass through these TJs. These findings provide the first evidence that continuous claudin-based TJs occur in the epidermis and that these TJs are crucial for the barrier function of the mammalian skin.
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            ZO-1 and ZO-2 independently determine where claudins are polymerized in tight-junction strand formation.

            Kazuaki Umeda, Junichi Ikenouchi, Sayaka Katahira-Tayama (2006)
            A fundamental question in cell and developmental biology is how epithelial cells construct the diffusion barrier allowing them to separate different body compartments. Formation of tight junction (TJ) strands, which are crucial for this barrier, involves the polymerization of claudins, TJ adhesion molecules, in temporal and spatial manners. ZO-1 and ZO-2 are major PDZ-domain-containing TJ proteins and bind directly to claudins, yet their functional roles are poorly understood. We established cultured epithelial cells (1(ko)/2(kd)) in which the expression of ZO-1/ZO-2 was suppressed by homologous recombination and RNA interference, respectively. These cells were well polarized, except for a complete lack of TJs. When exogenously expressed in 1(ko)/2(kd) cells, ZO-1 and ZO-2 were recruited to junctional areas where claudins were polymerized, but truncated ZO-1 (NZO-1) containing only domains PDZ1-3 was not. When NZO-1 was forcibly recruited to lateral membranes and dimerized, claudins were dramatically polymerized. These findings indicate that ZO-1 and ZO-2 can independently determine whether and where claudins are polymerized.
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              Tight junctions and cell polarity.

              Kunyoo Shin, Ben Margolis, Paul Fogg (2005)
              The tight junction is an intracellular junctional structure that mediates adhesion between epithelial cells and is required for epithelial cell function. Tight junctions control paracellular permeability across epithelial cell sheets and also serve as a barrier to intramembrane diffusion of components between a cell's apical and basolateral membrane domains. Recent genetic and biochemical studies in invertebrates and vertebrates indicate that tight junction proteins play an important role in the establishment and maintenance of apico-basal polarity. Proteins involved in epithelial cell polarization form evolutionarily conserved multiprotein complexes at the tight junction, and these protein complexes regulate the architecture of epithelia throughout the polarization process. Accumulating information regarding the regulation of these polarity proteins will lead to a better understanding of the molecular mechanisms whereby cell polarity is established.
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                Author and article information

                Journal
                Journal ID (nlm-ta): Tissue Barriers
                Journal ID (iso-abbrev): Tissue Barriers
                Journal ID (publisher-id): TISBAR
                Title: Tissue Barriers
                Publisher: Landes Bioscience
                ISSN (Print): 2168-8362
                ISSN (Electronic): 2168-8370
                Publication date (Electronic): 12 May 2014
                Publication date Collection: 2014
                Publication date PMC-release: 12 May 2014
                Volume: 2
                Electronic Location Identifier: e29166
                Affiliations
                [1 ]School of Pharmaceutical Sciences; University of Geneva; University of Lausanne; Geneva, Switzerland
                [2 ]Department of Molecular Biology; Institute of Genetics and Genomics; University of Geneva; Geneva, Switzerland
                [3 ]Department of Cell Biology; Institute of Genetics and Genomics; University of Geneva; Geneva, Switzerland
                Author notes
                [* ]Correspondence to: Gerrit Borchard, Email: Gerrit.Borchard@ 123456unige.ch
                Article
                Publisher ID: 2013TISSBARRIER041R1 Publisher Item ID: 29166
                DOI: 10.4161/tisb.29166
                PMC ID: 4117686
                PubMed ID: 25101232
                SO-VID: e25963de-0d15-4e4d-8f65-db3488e99ff1
                Copyright © Copyright © 2014 Landes Bioscience
                License:

                This is an open-access article licensed under a Creative Commons Attribution-NonCommercial 3.0 Unported License. The article may be redistributed, reproduced, and reused for non-commercial purposes, provided the original source is properly cited.

                History
                Date received : 15 August 2013
                Date revision received : 07 May 2014
                Date accepted : 08 May 2014
                Categories
                Subject: Research Paper

                Keywords: calu-3,tight junctions,toll-like receptor,airway inflammation,barrier function,epithelial permeability,protein kinase c
                Data availability:
                Keywords: calu-3, tight junctions, toll-like receptor, airway inflammation, barrier function, epithelial permeability, protein kinase c

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