5f0j Citations

Structural Mechanism for Cargo Recognition by the Retromer Complex.

Lucas M, Gershlick DC, Vidaurrazaga A, Rojas AL, Bonifacino JS, Hierro A
Cell 167 1623-1635.e14 (2016)
Related entries: 5f0k, 5f0l, 5f0m, 5f0p

Cited: 115 times
EuropePMC logo PMID: 27889239

Abstract

Retromer is a multi-protein complex that recycles transmembrane cargo from endosomes to the trans-Golgi network and the plasma membrane. Defects in retromer impair various cellular processes and underlie some forms of Alzheimer's disease and Parkinson's disease. Although retromer was discovered over 15 years ago, the mechanisms for cargo recognition and recruitment to endosomes have remained elusive. Here, we present an X-ray crystallographic analysis of a four-component complex comprising the VPS26 and VPS35 subunits of retromer, the sorting nexin SNX3, and a recycling signal from the divalent cation transporter DMT1-II. This analysis identifies a binding site for canonical recycling signals at the interface between VPS26 and SNX3. In addition, the structure highlights a network of cooperative interactions among the VPS subunits, SNX3, and cargo that couple signal-recognition to membrane recruitment.

Reviews - 5f0j mentioned but not cited (2)

  1. Systems-wide Studies Uncover Commander, a Multiprotein Complex Essential to Human Development. Mallam AL, Marcotte EM. Cell Syst 4 483-494 (2017)
  2. Toward Understanding the Molecular Role of SNX27/Retromer in Human Health and Disease. Chandra M, Kendall AK, Jackson LP. Front Cell Dev Biol 9 642378 (2021)

Articles - 5f0j mentioned but not cited (8)

  1. Structural Mechanism for Cargo Recognition by the Retromer Complex. Lucas M, Gershlick DC, Vidaurrazaga A, Rojas AL, Bonifacino JS, Hierro A. Cell 167 1623-1635.e14 (2016)
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