The retromer coat complex coordinates endosomal sorting and dynein-mediated transport, with carrier recognition by the trans-Golgi network

Thomas Wassmer; Naomi Attar; Martin Harterink; Jan R.T. van Weering; Colin J. Traer; Jacqueline Oakley; Bruno Goud; David J. Stephens; Paul Verkade; Hendrik C. Korswagen; Peter J. Cullen

doi:10.1016/j.devcel.2009.04.016

The retromer coat complex coordinates endosomal sorting and dynein-mediated transport, with carrier recognition by the trans-Golgi network

Thomas Wassmer, Naomi Attar, Martin Harterink, Jan R.T. van Weering, Colin J. Traer, Jacqueline Oakley, Bruno Goud, David J. Stephens, Paul Verkade, Hendrik C. Korswagen, Peter J. Cullen

Research output: Contribution to journal › Article › peer-review

Abstract

Early endosome-to-trans-Golgi network (TGN) transport is organized by the retromer complex. Consisting of cargo-selective and membrane-bound subcomplexes, retromer coordinates sorting with membrane deformation and carrier formation. Here, we describe four mammalian retromers whose membrane-bound subcomplexes contain specific combinations of the sorting nexins (SNX), SNX1, SNX2, SNX5, and SNX6. We establish that retromer requires a dynamic spatial organization of the endosomal network, which is regulated through association of SNX5/SNX6 with the p150(glued) component of dynactin, an activator of the minus-end directed microtubule motor dynein; an association further defined through genetic studies in C. elegans. Finally, we also establish that the spatial organization of the retromer pathway is mediated through the association of SNX1 with the proposed TGN-localized tether Rab6-interacting protein-1. These interactions describe fundamental steps in retromer-mediated transport and establish that the spatial organization of the retromer network is a critical element required for efficient retromer-mediated sorting.

Original language	English
Pages (from-to)	110-122
Number of pages	13
Journal	Developmental Cell
Volume	17
Issue number	1
DOIs	https://doi.org/10.1016/j.devcel.2009.04.016
Publication status	Published - 21 Jul 2009

Bibliographical note

Open access under CC BY license

Keywords

animals
biological transport
caenorhabditis elegans
caenorhabditis elegans proteins
carrier proteins
cell line
dyneins
endosomes
humans
microtubule-associated proteins
multiprotein complexes
phylogeny
protein isoforms
RNA interference
recombinant fusion proteins
sorting nexins
two-hybrid system techniques
vesicular transport proteins
rab GTP-binding proteins
trans-Golgi network

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10.1016/j.devcel.2009.04.016Licence: CC BY 3.0

The Retromer Coat Complex Coordinates Endosomal Sorting and Dynein-Mediated Transport
Open access under CC BY license
Final published version, 1.91 MBLicence: CC BY 3.0

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Wassmer, T., Attar, N., Harterink, M., van Weering, J. R. T., Traer, C. J., Oakley, J., Goud, B., Stephens, D. J., Verkade, P., Korswagen, H. C., & Cullen, P. J. (2009). The retromer coat complex coordinates endosomal sorting and dynein-mediated transport, with carrier recognition by the trans-Golgi network. Developmental Cell, 17(1), 110-122. https://doi.org/10.1016/j.devcel.2009.04.016

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title = "The retromer coat complex coordinates endosomal sorting and dynein-mediated transport, with carrier recognition by the trans-Golgi network",

abstract = "Early endosome-to-trans-Golgi network (TGN) transport is organized by the retromer complex. Consisting of cargo-selective and membrane-bound subcomplexes, retromer coordinates sorting with membrane deformation and carrier formation. Here, we describe four mammalian retromers whose membrane-bound subcomplexes contain specific combinations of the sorting nexins (SNX), SNX1, SNX2, SNX5, and SNX6. We establish that retromer requires a dynamic spatial organization of the endosomal network, which is regulated through association of SNX5/SNX6 with the p150(glued) component of dynactin, an activator of the minus-end directed microtubule motor dynein; an association further defined through genetic studies in C. elegans. Finally, we also establish that the spatial organization of the retromer pathway is mediated through the association of SNX1 with the proposed TGN-localized tether Rab6-interacting protein-1. These interactions describe fundamental steps in retromer-mediated transport and establish that the spatial organization of the retromer network is a critical element required for efficient retromer-mediated sorting.",

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author = "Thomas Wassmer and Naomi Attar and Martin Harterink and {van Weering}, {Jan R.T.} and Traer, {Colin J.} and Jacqueline Oakley and Bruno Goud and Stephens, {David J.} and Paul Verkade and Korswagen, {Hendrik C.} and Cullen, {Peter J.}",

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doi = "10.1016/j.devcel.2009.04.016",

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Wassmer, T, Attar, N, Harterink, M, van Weering, JRT, Traer, CJ, Oakley, J, Goud, B, Stephens, DJ, Verkade, P, Korswagen, HC & Cullen, PJ 2009, 'The retromer coat complex coordinates endosomal sorting and dynein-mediated transport, with carrier recognition by the trans-Golgi network', Developmental Cell, vol. 17, no. 1, pp. 110-122. https://doi.org/10.1016/j.devcel.2009.04.016

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AU - Wassmer, Thomas

AU - Attar, Naomi

AU - Harterink, Martin

AU - van Weering, Jan R.T.

AU - Traer, Colin J.

AU - Oakley, Jacqueline

AU - Goud, Bruno

AU - Stephens, David J.

AU - Verkade, Paul

AU - Korswagen, Hendrik C.

AU - Cullen, Peter J.

N1 - Open access under CC BY license

PY - 2009/7/21

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AB - Early endosome-to-trans-Golgi network (TGN) transport is organized by the retromer complex. Consisting of cargo-selective and membrane-bound subcomplexes, retromer coordinates sorting with membrane deformation and carrier formation. Here, we describe four mammalian retromers whose membrane-bound subcomplexes contain specific combinations of the sorting nexins (SNX), SNX1, SNX2, SNX5, and SNX6. We establish that retromer requires a dynamic spatial organization of the endosomal network, which is regulated through association of SNX5/SNX6 with the p150(glued) component of dynactin, an activator of the minus-end directed microtubule motor dynein; an association further defined through genetic studies in C. elegans. Finally, we also establish that the spatial organization of the retromer pathway is mediated through the association of SNX1 with the proposed TGN-localized tether Rab6-interacting protein-1. These interactions describe fundamental steps in retromer-mediated transport and establish that the spatial organization of the retromer network is a critical element required for efficient retromer-mediated sorting.

KW - animals

KW - biological transport

KW - caenorhabditis elegans

KW - caenorhabditis elegans proteins

KW - carrier proteins

KW - cell line

KW - dyneins

KW - endosomes

KW - humans

KW - microtubule-associated proteins

KW - multiprotein complexes

KW - phylogeny

KW - protein isoforms

KW - RNA interference

KW - recombinant fusion proteins

KW - sorting nexins

KW - two-hybrid system techniques

KW - vesicular transport proteins

KW - rab GTP-binding proteins

KW - trans-Golgi network

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U2 - 10.1016/j.devcel.2009.04.016

DO - 10.1016/j.devcel.2009.04.016

M3 - Article

C2 - 19619496

SN - 1534-5807

VL - 17

SP - 110

EP - 122

JO - Developmental Cell

JF - Developmental Cell

IS - 1

ER -

The retromer coat complex coordinates endosomal sorting and dynein-mediated transport, with carrier recognition by the trans-Golgi network

Abstract

Bibliographical note

Keywords

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