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      SNX17 protects integrins from degradation by sorting between lysosomal and recycling pathways

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          Abstract

          Retrieval of β integrins from the lysosomal degradation pathway mediated by sorting nexin-17 is important for integrin recycling and regulation of cell migration.

          Abstract

          The FERM-like domain–containing sorting nexins of the SNX17/SNX27/SNX31 family have been proposed to mediate retrieval of transmembrane proteins from the lysosomal pathway. In this paper, we describe a stable isotope labeling with amino acids in culture–based quantitative proteomic approach that allows an unbiased, global identification of transmembrane cargoes that are rescued from lysosomal degradation by SNX17. This screen revealed that several integrins required SNX17 for their stability, as depletion of SNX17 led to a loss of β1 and β5 integrins and associated a subunits from HeLa cells as a result of increased lysosomal degradation. SNX17 bound to the membrane distal NPXY motif in β integrin cytoplasmic tails, thereby preventing lysosomal degradation of β integrins and their associated a subunits. Furthermore, SNX17-dependent retrieval of integrins did not depend on the retromer complex. Consistent with an effect on integrin recycling, depletion of SNX17 also caused alterations in cell migration. Our data provide mechanistic insight into the retrieval of internalized integrins from the lysosomal degradation pathway, a prerequisite for subsequent recycling of these matrix receptors.

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          The tail of integrins, talin, and kindlins.

          Integrins are transmembrane cell-adhesion molecules that carry signals from the outside to the inside of the cell and vice versa. Like other cell surface receptors, integrins signal in response to ligand binding; however, events within the cell can also regulate the affinity of integrins for ligands. This feature is important in physiological situations such as those in blood, in which cells are always in close proximity to their ligands, yet cell-ligand interactions occur only after integrin activation in response to specific external cues. This review focuses on the mechanisms whereby two key proteins, talin and the kindlins, regulate integrin activation by binding the tails of integrin-beta subunits.
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            Integrins: masters and slaves of endocytic transport.

            Since it has become clear that adhesion receptors are trafficked through the endosomal pathway and that this can influence their function, much effort has been invested in obtaining detailed descriptions of the molecular machinery responsible for internalizing and recycling integrins. New findings indicate that integrin trafficking dictates the nature of Rho GTPase signalling during cytokinesis and cell migration. Furthermore, integrins can exert control over the trafficking of other receptors in a way that drives cancer cell invasion and tumour angiogenesis.
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              Endosomal sorting and signalling: an emerging role for sorting nexins.

              The endocytic network comprises a series of interconnected tubulo-vesicular membranous compartments that together regulate various sorting and signalling events. Although it is clear that defects in endocytic function underlie a variety of human diseases, our understanding of the molecular entities that regulate these sorting and signalling events remains limited. Here we discuss the sorting nexins family of proteins and propose that they have a fundamental role in orchestrating the formation of protein complexes that are involved in endosomal sorting and signalling.
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                Author and article information

                Journal
                J Cell Biol
                J. Cell Biol
                jcb
                The Journal of Cell Biology
                The Rockefeller University Press
                0021-9525
                1540-8140
                16 April 2012
                : 197
                : 2
                : 219-230
                Affiliations
                [1 ]The Henry Wellcome Integrated Signalling Laboratories and [2 ]Proteomics Facility, School of Biochemistry, School of Medical Sciences, University of Bristol, Bristol BS8 1TD, England, UK
                Author notes
                Correspondence to Peter J. Cullen: Pete.Cullen@ 123456bristol.ac.uk
                Article
                201111121
                10.1083/jcb.201111121
                3328392
                22492727
                f1b648f6-e036-4f72-aacd-244b8ec4b941
                © 2012 Steinberg et al.

                This article is distributed under the terms of an Attribution–Noncommercial–Share Alike–No Mirror Sites license for the first six months after the publication date (see http://www.rupress.org/terms). After six months it is available under a Creative Commons License (Attribution–Noncommercial–Share Alike 3.0 Unported license, as described at http://creativecommons.org/licenses/by-nc-sa/3.0/).

                History
                : 25 November 2011
                : 9 March 2012
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                Cell biology
                Cell biology

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