Hiroshi Suzuki scite author profile

Tight junctions are cell-cell adhesion structures in epithelial cell sheets that surround organ compartments in multicellular organisms and regulate the permeation of ions through the intercellular space. Claudins are the major constituents of tight junctions and form strands that mediate cell adhesion and function as paracellular barriers. We report the structure of mammalian claudin-15 at a resolution of 2.4 angstroms. The structure reveals a characteristic β-sheet fold comprising two extracellular segments, which is anchored to a transmembrane four-helix bundle by a consensus motif. Our analyses suggest potential paracellular pathways with distinctive charges on the extracellular surface, providing insight into the molecular basis of ion homeostasis across tight junctions.

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Implications of the Aquaporin-4 Structure on Array Formation and Cell Adhesion

Hiroaki

Tani

Kamegawa

et al. 2006

Journal of Molecular Biology

365

359

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Model for the Architecture of Claudin-Based Paracellular Ion Channels through Tight Junctions

Suzuki

Tani

Tamura

et al. 2015

Journal of Molecular Biology

171

282

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Claudins are main cell-cell adhesion molecules of tight junctions (TJs) between cells in epithelial sheets that form tight barriers that separate the apical from the basolateral space but also contain paracellular channels that regulate the flow of ions and solutes in between these intercellular spaces. Recently, the first crystal structure of a claudin was determined, that of claudin-15, which indicated the parts of the large extracellular domains that likely form the pore-lining surfaces of the paracellular channels. However, the crystal structure did not show how claudin molecules are arranged in the cell membrane to form the backbone of TJ strands and to mediate interactions between adjacent cells, information that is essential to understand how the paracellular channels in TJs function. Here, we propose that TJ strands consist of claudin protomers that assemble into antiparallel double rows. This model is based on cysteine crosslinking experiments that show claudin-15 to dimerize face to face through interactions between the edges of the extracellular β-sheets. Strands observed by freeze-fracture electron microscopy of TJs also show that their width is consistent with the dimensions of a claudin dimer. Furthermore, we propose that extracellular variable regions are responsible for head-to-head interactions of TJ strands in adjoining cells, thus resulting in the formation of paracellular channels. Our model of the TJ architecture provides a basis to discuss structural mechanisms underlying the selective ion permeability and barrier properties of TJs.

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New Inuyama classification; new criteria for histological assessment of chronic hepatitis

Ichida

Tsuji

Omata

et al. 1996

International Hepatology Communications

340

233

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Structural insight into tight junction disassembly by Clostridium perfringens enterotoxin

Saitoh

Suzuki

Tani

et al. 2015

Science

192

210

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The C-terminal region of Clostridium perfringens enterotoxin (C-CPE) can bind to specific claudins, resulting in the disintegration of tight junctions (TJs) and an increase in the paracellular permeability across epithelial cell sheets. Here we present the structure of mammalian claudin-19 in complex with C-CPE at 3.7 Å resolution. The structure shows that C-CPE forms extensive hydrophobic and hydrophilic interactions with the two extracellular segments of claudin-19. The claudin-19/C-CPE complex shows no density of a short extracellular helix that is critical for claudins to assemble into TJ strands. The helix displacement may thus underlie C-CPE-mediated disassembly of TJs.

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Hiroshi Suzuki

Crystal Structure of a Claudin Provides Insight into the Architecture of Tight Junctions

Implications of the Aquaporin-4 Structure on Array Formation and Cell Adhesion

Model for the Architecture of Claudin-Based Paracellular Ion Channels through Tight Junctions

New Inuyama classification; new criteria for histological assessment of chronic hepatitis

Structural insight into tight junction disassembly by Clostridium perfringens enterotoxin

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