Structural basis of the strong cell‐cell junction formed by cadherin‐23

Cadherin‐23, a giant atypical cadherin, form homophilic interactions at the cell–cell junction of epithelial cells and heterophilic interactions with protocadherin‐15 at the tip links of neuroepithelial cells. While the molecular structure of the heterodimer is solved, the homodimer structure is yet...

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Veröffentlicht in:	The FEBS journal 2020-06, Vol.287 (11), p.2328-2347
Hauptverfasser:	Singaraju, Gayathri S., Sagar, Amin, Kumar, Anuj, Samuel, Jesse S., Hazra, Jagadish P., Sannigrahi, Malay K., Yennamalli, Ragothaman M., Ashish, , Rakshit, Sabyasachi
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Sprache:	eng
Schlagworte:	Adhesion Adhesive strength Agglomeration atypical cadherins cadherin‐23 Cancer Cell adhesion Cell adhesion & migration Cell migration cell–cell adhesion Epithelial cells Interfaces Molecular structure Mutation Original Point mutation Protocadherin single-molecule Forster resonance energy transfer Skin cancer small‐angle X‐ray scattering
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creator	Singaraju, Gayathri S. Sagar, Amin Kumar, Anuj Samuel, Jesse S. Hazra, Jagadish P. Sannigrahi, Malay K. Yennamalli, Ragothaman M. Ashish, Rakshit, Sabyasachi
description	Cadherin‐23, a giant atypical cadherin, form homophilic interactions at the cell–cell junction of epithelial cells and heterophilic interactions with protocadherin‐15 at the tip links of neuroepithelial cells. While the molecular structure of the heterodimer is solved, the homodimer structure is yet to be resolved. The homodimers play an essential role in cell–cell adhesion as the downregulation of cadherin‐23 in cancers loosen the intercellular junction resulting in faster migration of cancer cells and a significant drop in patient survival. In vitro studies have measured a stronger aggregation propensity of cadherin‐23 compared to typical E‐cadherin. Here, we deciphered the unique trans‐homodimer structure of cadherin‐23 in solution and show that it consists of two electrostatic‐based interfaces extended up to two terminal domains. The interface is robust, with a low off‐rate of ~ 8 × 10−4 s−1 that supports its strong aggregation propensity. We identified a point mutation, E78K, that disrupts this binding. Interestingly, a mutation at the interface was reported in skin cancer. Overall, the structural basis of the strong cadherin‐23 adhesion may have far‐reaching applications in the fields of mechanobiology and cancer. Cadherin‐23, a long nonclassical cadherin, is known to mediate strong cell–cell junctions through homophilic interactions. Cadherin‐23‐mediated junctions are involved in cell–cell adhesion in a variety of epithelial tissues, and downregulation of this nonclassical cadherin in the context of cancer has been shown to promote faster migration of tumor cells. In this study, we used small‐angle X‐ray scattering (SAXS) in combination with in silico measurements to decipher the unique trans‐homodimer structure of cadherin‐23 that maintains the characteristically robust cell–cell junction.
doi_str_mv	10.1111/febs.15141
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Overall, the structural basis of the strong cadherin‐23 adhesion may have far‐reaching applications in the fields of mechanobiology and cancer. Cadherin‐23, a long nonclassical cadherin, is known to mediate strong cell–cell junctions through homophilic interactions. Cadherin‐23‐mediated junctions are involved in cell–cell adhesion in a variety of epithelial tissues, and downregulation of this nonclassical cadherin in the context of cancer has been shown to promote faster migration of tumor cells. 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subjects	Adhesion Adhesive strength Agglomeration atypical cadherins cadherin‐23 Cancer Cell adhesion Cell adhesion & migration Cell migration cell–cell adhesion Epithelial cells Interfaces Molecular structure Mutation Original Point mutation Protocadherin single-molecule Forster resonance energy transfer Skin cancer small‐angle X‐ray scattering
title	Structural basis of the strong cell‐cell junction formed by cadherin‐23
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