Literature DB >> 27247384

Sphingomyelin is sorted at the trans Golgi network into a distinct class of secretory vesicle.

Yongqiang Deng1, Felix E Rivera-Molina1, Derek K Toomre1, Christopher G Burd2.   

Abstract

One of the principal functions of the trans Golgi network (TGN) is the sorting of proteins into distinct vesicular transport carriers that mediate secretion and interorganelle trafficking. Are lipids also sorted into distinct TGN-derived carriers? The Golgi is the principal site of the synthesis of sphingomyelin (SM), an abundant sphingolipid that is transported. To address the specificity of SM transport to the plasma membrane, we engineered a natural SM-binding pore-forming toxin, equinatoxin II (Eqt), into a nontoxic reporter termed Eqt-SM and used it to monitor intracellular trafficking of SM. Using quantitative live cell imaging, we found that Eqt-SM is enriched in a subset of TGN-derived secretory vesicles that are also enriched in a glycophosphatidylinositol-anchored protein. In contrast, an integral membrane secretory protein (CD8α) is not enriched in these carriers. Our results demonstrate the sorting of native SM at the TGN and its transport to the plasma membrane by specific carriers.

Entities:  

Keywords:  Golgi apparatus; equinatoxin; secretion; sphingomyelin

Mesh:

Substances:

Year:  2016        PMID: 27247384      PMCID: PMC4914164          DOI: 10.1073/pnas.1602875113

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  54 in total

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Review 2.  Membrane fission: the biogenesis of transport carriers.

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Journal:  Annu Rev Biochem       Date:  2012-03-29       Impact factor: 23.643

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Authors:  Nikki P Y Lee; Dolores D Mruk; Weiliang Xia; C Yan Cheng
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4.  Role of diacylglycerol in PKD recruitment to the TGN and protein transport to the plasma membrane.

Authors:  Carole L Baron; Vivek Malhotra
Journal:  Science       Date:  2001-11-29       Impact factor: 47.728

5.  Visualization of the heterogeneous membrane distribution of sphingomyelin associated with cytokinesis, cell polarity, and sphingolipidosis.

Authors:  Asami Makino; Mitsuhiro Abe; Motohide Murate; Takehiko Inaba; Neval Yilmaz; Françoise Hullin-Matsuda; Takuma Kishimoto; Nicole L Schieber; Tomohiko Taguchi; Hiroyuki Arai; Gregor Anderluh; Robert G Parton; Toshihide Kobayashi
Journal:  FASEB J       Date:  2014-11-11       Impact factor: 5.191

6.  Molecular determinants of sphingomyelin specificity of a eukaryotic pore-forming toxin.

Authors:  Biserka Bakrac; Ion Gutiérrez-Aguirre; Zdravko Podlesek; Andreas F-P Sonnen; Robert J C Gilbert; Peter Macek; Jeremy H Lakey; Gregor Anderluh
Journal:  J Biol Chem       Date:  2008-04-28       Impact factor: 5.157

7.  Vectorial insertion of apical and basolateral membrane proteins in polarized epithelial cells revealed by quantitative 3D live cell imaging.

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8.  CD8beta endows CD8 with efficient coreceptor function by coupling T cell receptor/CD3 to raft-associated CD8/p56(lck) complexes.

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10.  Sorting of sphingolipids in epithelial (Madin-Darby canine kidney) cells.

Authors:  G van Meer; E H Stelzer; R W Wijnaendts-van-Resandt; K Simons
Journal:  J Cell Biol       Date:  1987-10       Impact factor: 10.539
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  37 in total

1.  Activity of the SPCA1 Calcium Pump Couples Sphingomyelin Synthesis to Sorting of Secretory Proteins in the Trans-Golgi Network.

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2.  Sphingomyelin metabolism controls the shape and function of the Golgi cisternae.

Authors:  Felix Campelo; Josse van Galen; Gabriele Turacchio; Seetharaman Parashuraman; Michael M Kozlov; María F García-Parajo; Vivek Malhotra
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Review 3.  Sphingolipids and their metabolism in physiology and disease.

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Review 4.  An equal opportunity collaboration between lipid metabolism and proteins in the control of membrane trafficking in the trans-Golgi and endosomal systems.

Authors:  Yaxi Wang; Carl J Mousley; Marta G Lete; Vytas A Bankaitis
Journal:  Curr Opin Cell Biol       Date:  2019-04-28       Impact factor: 8.382

5.  Sphingolipid metabolic flow controls phosphoinositide turnover at the trans-Golgi network.

Authors:  Serena Capasso; Lucia Sticco; Riccardo Rizzo; Marinella Pirozzi; Domenico Russo; Nina A Dathan; Felix Campelo; Josse van Galen; Maarit Hölttä-Vuori; Gabriele Turacchio; Angelika Hausser; Vivek Malhotra; Isabelle Riezman; Howard Riezman; Elina Ikonen; Chiara Luberto; Seetharaman Parashuraman; Alberto Luini; Giovanni D'Angelo
Journal:  EMBO J       Date:  2017-05-10       Impact factor: 11.598

Review 6.  Sphingolipids and Lipoproteins in Health and Metabolic Disorders.

Authors:  Jahangir Iqbal; Meghan T Walsh; Samar M Hammad; M Mahmood Hussain
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Review 7.  Lipid Rafts: Controversies Resolved, Mysteries Remain.

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Review 8.  Sphingolipid abnormalities in cancer multidrug resistance: Chicken or egg?

Authors:  Wing-Kee Lee; Richard N Kolesnick
Journal:  Cell Signal       Date:  2017-07-04       Impact factor: 4.315

9.  Syndecan-1 Mediates Sorting of Soluble Lipoprotein Lipase with Sphingomyelin-Rich Membrane in the Golgi Apparatus.

Authors:  Emma L Sundberg; Yongqiang Deng; Christopher G Burd
Journal:  Dev Cell       Date:  2019-09-19       Impact factor: 12.270

Review 10.  Phospholipid subcellular localization and dynamics.

Authors:  Yanbo Yang; Minhyoung Lee; Gregory D Fairn
Journal:  J Biol Chem       Date:  2018-03-27       Impact factor: 5.157
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