Changes in expression and distribution of claudin 2, 5 and 8 lead to discontinuous tight junctions and barrier dysfunction in active Crohn's disease

Zeißig, Sebastian; Bürgel, Nataly; Günzel, Dorothee; Richter, Jan F.; Mankertz, Joachim; Wahnschaffe, Ulrich; Kroesen, A. J.; Zeitz, Martin; Fromm, Michael; Schulzke, Joerg D.

doi:10.1136/gut.2006.094375

Cited by 1,028 publications

(960 citation statements)

References 48 publications

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“…In our TRIC-a overexpression experiments the opposite occurred in bTJs: Although the meshwork depth and the strand number remained constant in comparison to controls, the occurrence of breaks Ͼ20 nm was decreased, and strand type changed to 100% continuous. A similar correlation between strand linearity and paracellular resistance was found in human colon to be induced by a strong upregulation of claudin-2 in Crohn's disease (Zeissig et al, 2007). It is established that, depending on the presence of claudin-2, strand discontinuities appear or disappear (Furuse et al, 1999).…”

Section: In Btjs Tricellulin Reduces Strand Discontinuities and By Thmentioning

confidence: 49%

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Tricellulin Forms a Barrier to Macromolecules in Tricellular Tight Junctions without Affecting Ion Permeability

Krug

Amasheh

Richter

et al. 2009

MBoC

300

322

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Tricellulin is a tight junction protein localized in tricellular tight junctions (tTJs), the meeting points of three cells, but also in bicellular tight junctions (bTJs). To investigate its specific barrier functions in bTJs and tTJs, TRIC-a was expressed in low-level tricellulin-expressing cells, and MDCK II, either in all TJs or only in tTJs. When expressed in all TJs, tricellulin increased paracellular electrical resistance and decreased permeability to ions and larger solutes, which are associated with enhanced ultrastructural integrity of bTJs toward enhanced strand linearity. In tTJs in contrast, ultrastructure was unchanged and tricellulin minimized permeability to macromolecules but not to ions. This paradox is explained by properties of the tTJ central tube which is wide enough for passage of macromolecules, but too rare to contribute significantly to ion permeability. In conclusion, at low tricellulin expression the tTJ central tube forms a pathway for macromolecules. At higher expression, tricellulin forms a barrier in tTJs effective only for macromolecules and in bTJs for solutes of all sizes.

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Section: In Btjs Tricellulin Reduces Strand Discontinuities and By Thmentioning

confidence: 49%

“…Freeze-fracture electron microscopy was performed as previously described (Zeissig et al, 2007). Briefly, cells grown on permeable supports were fixed with phosphate-buffered glutaraldehyde (2%).…”

Section: Freeze-fracture Electron Microscopymentioning

confidence: 99%

Tricellulin Forms a Barrier to Macromolecules in Tricellular Tight Junctions without Affecting Ion Permeability

Krug

Amasheh

Richter

et al. 2009

MBoC

300

322

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“…However, when the epithelial barrier was functionally assessed, we demonstrated decreased TEER, increased permeability to a 4 kDa paracellular probe and confirmed that Claudin-2, a known pore forming TJ protein, was significantly increased at the protein level in decompensated cirrhosis, suggesting that it is responsible for the increased permeability observed. Indeed, epithelial barrier dysfunction and elevated Claudin-2 expression associated with bacterial translocation have been observed in other diseases, such as Crohn's disease [26] and HIV infection [27]. Despite demonstrating increased permeability, it remains unclear to what extent Claudin-2 induced pore formation allows crossing of large bacterial products such as LPS and DNA.…”

Section: Discussionmentioning

confidence: 99%

Activated intestinal macrophages in patients with cirrhosis release NO and IL-6 that may disrupt intestinal barrier function

Plessis

Vanheel

Janssen

et al. 2013

Journal of Hepatology

145

123

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Background & Aims: Bacterial infections commonly occur in decompensated cirrhosis resulting from bacterial translocation from the intestine. We studied the role of intestinal macrophages and the epithelial barrier in cirrhosis. Methods: Forty-four patients with NASH/ASH cirrhosis (decom-pensated n = 29, compensated n = 15) and nineteen controls undergoing endoscopy were recruited. Serum was obtained and LPS and LBP levels determined. Intestinal macrophages were characterized by flow cytometry, immunohistochemistry, and nitric oxide (NO) production measured in supernatant of cultured duodenal samples. Quantitative RT-PCR was performed on duo-denal biopsies assessing 84 inflammatory genes. Protein levels of cytokines/chemokines were assessed in serum and superna-tant. The duodenal wall was assessed by electron microscopy, tight junction protein expression determined by RT-PCR, immu-nohistochemistry, and Western blot and, functional analysis performed by transepithelial resistance measurement and per-meability studies. Results: Increased plasma LPS, LBP levels and higher numbers of duodenal CD33 + /CD14 + /Trem-1 + macrophages, synthesizing iNOS and secreting NO were present in decompensated cirrhosis. Upregulation of IL-8, CCL2, CCL13 at the transcriptional level, and increased IL-8, and IL-6 were detected in supernatant and serum in cirrhosis. IL-6 and IL-8 co-localised with iNOS + and CD68 + , but not with CD11c + cells. Electron microscopy demon-strated an intact epithelial barrier. Increased Claudin-2 was detected by Western blot and immunohistochemistry, while decreased transepithelial resistance and increased duodenal per-meability were detected in decompensated cirrhosis. Conclusions: Our study shows the presence of activated CD14 +-Trem-1 + iNOS + intestinal macrophages, releasing IL-6, NO, and increased intestinal permeability in patients with cirrhosis, sug-gesting that these cells may produce factors capable of enhancing permeability to bacterial products.

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“…23 Similar alterations in claudin family members have been described under conditions of inflammation, as seen in the intestinal mucosa of individuals with IBD. 98,99 Furthermore, selective disruption of specific subsets of tight junction proteins can be seen after exposure to inflammatory cytokines. As an example, Figure 5A highlights the effect of exposing cultured epithelial monolayers to the cytokine interferon-g that results in selective disorganization of several tight junction proteins while preserving architecture for the adherens junction proteins E-cadherin and b-catenin.…”

Section: Effects Of Inflammation On Epithelial Cell Functionmentioning

confidence: 99%

Neutrophil-Epithelial Interactions

Parkos

2016

The American Journal of Pathology

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Changes in expression and distribution of claudin 2, 5 and 8 lead to discontinuous tight junctions and barrier dysfunction in active Crohn's disease

Cited by 1,028 publications

References 48 publications

Tricellulin Forms a Barrier to Macromolecules in Tricellular Tight Junctions without Affecting Ion Permeability

Tricellulin Forms a Barrier to Macromolecules in Tricellular Tight Junctions without Affecting Ion Permeability

Activated intestinal macrophages in patients with cirrhosis release NO and IL-6 that may disrupt intestinal barrier function

Neutrophil-Epithelial Interactions

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