Live imaging molecular changes in junctional tension upon VE-cadherin in zebrafish

Lagendijk, Anne Karine; Gomez, Guillermo A.; Baek, Sungmin; Hesselson, Daniel; Hughes, William E.; Paterson, Scott; Conway, Daniel E.; Belting, Heinz-Georg; Affolter, Markus; Smith, Kelly A.; Schwartz, Martin A.; Yap, Alpha S.; Hogan, Benjamin M.

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oai:edoc.unibas.ch:57095

Live imaging molecular changes in junctional tension upon VE-cadherin in zebrafish

Authors: Anne Karine Lagendijk
Guillermo A. Gomez
Sungmin Baek
Daniel Hesselson
William E. Hughes
Scott Paterson
Daniel E. Conway
Heinz-Georg Belting
Markus Affolter
Kelly A. Smith
Martin A. Schwartz
Alpha S. Yap
Benjamin M. Hogan
Publication date: 1 January 2017
Publisher: Nature Publishing Group
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Abstract

Forces play diverse roles in vascular development, homeostasis and disease. VE-cadherin at endothelial cell-cell junctions links the contractile acto-myosin cytoskeletons of adjacent cells, serving as a tension-transducer. To explore tensile changes across VE-cadherin in live zebrafish, we tailored an optical biosensor approach, originally established in vitro. We validate localization and function of a VE-cadherin tension sensor (TS) in vivo. Changes in tension across VE-cadherin observed using ratio-metric or lifetime FRET measurements reflect acto-myosin contractility within endothelial cells. Furthermore, we apply the TS to reveal biologically relevant changes in VE-cadherin tension that occur as the dorsal aorta matures and upon genetic and chemical perturbations during embryonic development

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oai:edoc.unibas.ch:57095

Last time updated on 17/06/2018

This paper was published in edoc.

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