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Retromer- and WASH-dependent sorting of nutrient transporters requires a multivalent interaction network with ANKRD50.

Journal of cell science (2016-12-03)
Arunas Kvainickas, Ana Jimenez Orgaz, Heike Nägele, Britta Diedrich, Kate J Heesom, Jörn Dengjel, Peter J Cullen, Florian Steinberg
RESUMEN

Retromer and the associated actin-polymerizing WASH complex are essential for the endocytic recycling of a wide range of integral membrane proteins. A hereditary Parkinson's-disease-causing point mutation (D620N) in the retromer subunit VPS35 perturbs retromer's association with the WASH complex and also with the uncharacterized protein ankyrin-repeat-domain-containing protein 50 (ANKRD50). Here, we firmly establish ANKRD50 as a new and essential component of the SNX27-retromer-WASH super complex. Depletion of ANKRD50 in HeLa or U2OS cells phenocopied the loss of endosome-to-cell-surface recycling of multiple transmembrane proteins seen upon suppression of SNX27, retromer or WASH-complex components. Mass-spectrometry-based quantification of the cell surface proteome of ANKRD50-depleted cells identified amino acid transporters of the SLC1A family, among them SLC1A4, as additional cargo molecules that depend on ANKRD50 and retromer for their endocytic recycling. Mechanistically, we show that ANKRD50 simultaneously engages multiple parts of the SNX27-retromer-WASH complex machinery in a direct and co-operative interaction network that is needed to efficiently recycle the nutrient transporters GLUT1 (also known as SLC2A1) and SLC1A4, and potentially many other surface proteins.

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Anti-α-tubulina monoclonal antibody produced in mouse, clone DM1A, ascites fluid
Sigma-Aldrich
Anti-VPS35 (C-terminal) antibody produced in rabbit, affinity isolated antibody, buffered aqueous solution
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MISSION® esiRNA, targeting human ANKRD50