Litcius/Paper detail

Proximity interactome of lymphatic VE-cadherin reveals mechanisms of junctional remodeling and reelin secretion

Donald Serafín, Natalie R. Harris, László Bálint, Elizabeth S Douglas, Kathleen M. Caron

2024Nature Communications15 citationsDOIOpen Access PDF

Abstract

The adhesion receptor vascular endothelial (VE)-cadherin transduces an array of signals that modulate crucial lymphatic cell behaviors including permeability and cytoskeletal remodeling. Consequently, VE-cadherin must interact with a multitude of intracellular proteins to exert these functions. Yet, the full protein interactome of VE-cadherin in endothelial cells remains a mystery. Here, we use proximity proteomics to illuminate how the VE-cadherin interactome changes during junctional reorganization from dis-continuous to continuous junctions, triggered by the lymphangiogenic factor adrenomedullin. These analyses identified interactors that reveal roles for ADP ribosylation factor 6 (ARF6) and the exocyst complex in VE-cadherin trafficking and recycling. We also identify a requisite role for VE-cadherin in the in vitro and in vivo control of secretion of reelin—a lymphangiocrine glycoprotein with recently appreciated roles in governing heart development and injury repair. This VE-cadherin protein interactome shines light on mechanisms that control adherens junction remodeling and secretion from lymphatic endothelial cells. VE-cadherin is a cell adhesion and signaling molecule that regulates lymphatic cell behaviors. Here the authors show how the VE-cadherin interactome changes in response to junctional remodeling by adrenomedullin and identify mechanisms of VE-cadherin recycling and reelin secretion.

Topics & Concepts

InteractomeCadherinSecretionReelinCell biologyLymphatic systemBiologyComputational biologyGeneGeneticsImmunologyCellEndocrinologyExtracellular matrixCellular transport and secretionLymphatic System and DiseasesCellular Mechanics and Interactions