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Clathrin light chains are required for the gyrating-clathrin recycling pathway and thereby promote cell migration.

Nature communications (2014-05-24)
Sophia R Majeed, Lavanya Vasudevan, Chih-Ying Chen, Yi Luo, Jorge A Torres, Timothy M Evans, Andrew Sharkey, Amy B Foraker, Nicole M L Wong, Christopher Esk, Theresa A Freeman, Ashley Moffett, James H Keen, Frances M Brodsky
RESUMEN

The clathrin light chain (CLC) subunits participate in several membrane traffic pathways involving both clathrin and actin, through binding the actin-organizing huntingtin-interacting proteins (Hip). However, CLCs are dispensable for clathrin-mediated endocytosis of many cargoes. Here we observe that CLC depletion affects cell migration through Hip binding and reduces surface expression of β1-integrin by interference with recycling following normal endocytosis of inactive β1-integrin. CLC depletion and expression of a modified CLC also inhibit the appearance of gyrating (G)-clathrin structures, known mediators of rapid recycling of transferrin receptor from endosomes. Expression of the modified CLC reduces β1-integrin and transferrin receptor recycling, as well as cell migration, implicating G-clathrin in these processes. Supporting a physiological role for CLC in migration, the CLCb isoform of CLC is upregulated in migratory human trophoblast cells during uterine invasion. Together, these studies establish CLCs as mediating clathrin-actin interactions needed for recycling by G-clathrin during migration.

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Anti-β-actina monoclonal antibody produced in mouse, clone AC-15, ascites fluid
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Anticuerpo anti-α-tubulina, monoclonal de ratón, clone DM1A, purified from hybridoma cell culture