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Merck

Claudin-5 levels are reduced from multiple cell types in human failing hearts and are associated with mislocalization of ephrin-B1.

Cardiovascular pathology : the official journal of the Society for Cardiovascular Pathology (2014-12-03)
Sarah A Swager, Dawn A Delfín, Neha Rastogi, Honglan Wang, Benjamin D Canan, Vadim V Fedorov, Peter J Mohler, Ahmet Kilic, Robert S D Higgins, Mark T Ziolo, Paul M L Janssen, Jill A Rafael-Fortney
RÉSUMÉ

Claudin-5 is transcriptionally downregulated resulting in dramatically reduced protein levels in human heart failure. Studies in mice have demonstrated that reduced claudin-5 levels occur prior to cardiac damage and far before reduced whole heart function. Therefore, claudin-5 may be a useful early therapeutic target for human heart failure. However, the cell types in which claudin-5 is localized in human heart and from which claudin-5 is reduced in heart failure is not known. The recent identification of claudin-5's interaction with ephrin-B1 in mouse hearts has also not been investigated in non-failing or failing human hearts. In this study we collected human left ventricular mid-myocardium histological samples from 7 non-failing hearts and 16 end-stage failing hearts. Immunoblots demonstrate severe reductions of claudin-5 protein in 14 of 16 failing hearts compared to non-failing controls. Claudin-5 was observed to localize to cardiomyocytes, endothelial cells, and a subset of fibroblasts in non-failing human heart sections. In isolated cardiomyocytes, the transmembrane claudin-5 protein localized in longitudinal striations in lateral membranes. In failing heart, both cardiomyocyte and endothelial claudin-5 localization was severely reduced, but claudin-5 remained in fibroblasts. Absence of claudin-5 staining also correlated with the reduction of the endothelial cell marker CD31. Ephrin-B1 localization, but not protein levels, was altered in failing hearts supporting that claudin-5 is required for ephrin-B1 localization. These data support that loss of claudin-5 in cardiomyocytes and endothelial cells is prevalent in human heart failure. Investigating claudin-5/ephrin-B1 protein complexes and gene regulation may lead to novel therapies.

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Sigma-Aldrich
Anticorps monoclonal anti-α-actinine (sarcomérique) antibody produced in mouse, clone EA-53, ascites fluid
Sigma-Aldrich
Monoclonal Anti-Actin (α-Sarcomeric) antibody produced in mouse, clone 5C5, ascites fluid