Literature DB >> 17460664

Heparan sulphate proteoglycans fine-tune mammalian physiology.

Joseph R Bishop1, Manuela Schuksz, Jeffrey D Esko.   

Abstract

Heparan sulphate proteoglycans reside on the plasma membrane of all animal cells studied so far and are a major component of extracellular matrices. Studies of model organisms and human diseases have demonstrated their importance in development and normal physiology. A recurrent theme is the electrostatic interaction of the heparan sulphate chains with protein ligands, which affects metabolism, transport, information transfer, support and regulation in all organ systems. The importance of these interactions is exemplified by phenotypic studies of mice and humans bearing mutations in the core proteins or the biosynthetic enzymes responsible for assembling the heparan sulphate chains.

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Year:  2007        PMID: 17460664     DOI: 10.1038/nature05817

Source DB:  PubMed          Journal:  Nature        ISSN: 0028-0836            Impact factor:   49.962


  635 in total

1.  Heparan Sulfate Glycosaminoglycans in Glioblastoma Promote Tumor Invasion.

Authors:  Vy M Tran; Anna Wade; Andrew McKinney; Katharine Chen; Olle R Lindberg; Jane R Engler; Anders I Persson; Joanna J Phillips
Journal:  Mol Cancer Res       Date:  2017-08-04       Impact factor: 5.852

2.  Insights into the role of 3-O-sulfotransferase in heparan sulfate biosynthesis.

Authors:  Maria Cecília Zorél Meneghetti; Tarsis Gesteira Ferreira; Alexandre Keiji Tashima; Suely F Chavante; Edwin Alexander Yates; Jian Liu; Helena Bonciani Nader; Marcelo A Lima
Journal:  Org Biomol Chem       Date:  2017-08-16       Impact factor: 3.876

3.  Syndecan-syntenin-ALIX regulates the biogenesis of exosomes.

Authors:  Maria Francesca Baietti; Zhe Zhang; Eva Mortier; Aurélie Melchior; Gisèle Degeest; Annelies Geeraerts; Ylva Ivarsson; Fabienne Depoortere; Christien Coomans; Elke Vermeiren; Pascale Zimmermann; Guido David
Journal:  Nat Cell Biol       Date:  2012-06-03       Impact factor: 28.824

4.  The agouti-related peptide binds heparan sulfate through segments critical for its orexigenic effects.

Authors:  Rafael Palomino; Hsiau-Wei Lee; Glenn L Millhauser
Journal:  J Biol Chem       Date:  2017-03-06       Impact factor: 5.157

5.  Inhibition of hepatic sulfatase-2 in vivo: a novel strategy to correct diabetic dyslipidemia.

Authors:  H Carlijne Hassing; Hans Mooij; Shuling Guo; Brett P Monia; Keyang Chen; Wim Kulik; Geesje M Dallinga-Thie; Max Nieuwdorp; Erik S G Stroes; Kevin Jon Williams
Journal:  Hepatology       Date:  2012-06       Impact factor: 17.425

6.  Virally-induced upregulation of heparan sulfate on B cells via the action of type I IFN.

Authors:  Nadine Jarousse; Damian L Trujillo; Sarah Wilcox-Adelman; Laurent Coscoy
Journal:  J Immunol       Date:  2011-11-02       Impact factor: 5.422

7.  Characterization and Quantification of Highly Sulfated Glycosaminoglycan Isomers by Gated-Trapped Ion Mobility Spectrometry Negative Electron Transfer Dissociation MS/MS.

Authors:  Juan Wei; Jiandong Wu; Yang Tang; Mark E Ridgeway; Melvin A Park; Catherine E Costello; Joseph Zaia; Cheng Lin
Journal:  Anal Chem       Date:  2019-01-31       Impact factor: 6.986

8.  Chemoenzymatic synthesis and structural characterization of 2-O-sulfated glucuronic acid-containing heparan sulfate hexasaccharides.

Authors:  Po-Hung Hsieh; Yongmei Xu; David A Keire; Jian Liu
Journal:  Glycobiology       Date:  2014-04-25       Impact factor: 4.313

Review 9.  Glycosaminoglycan glycomics using mass spectrometry.

Authors:  Joseph Zaia
Journal:  Mol Cell Proteomics       Date:  2013-01-16       Impact factor: 5.911

10.  Specific glycosaminoglycan chain length and sulfation patterns are required for cell uptake of tau versus α-synuclein and β-amyloid aggregates.

Authors:  Barbara E Stopschinski; Brandon B Holmes; Gregory M Miller; Victor A Manon; Jaime Vaquer-Alicea; William L Prueitt; Linda C Hsieh-Wilson; Marc I Diamond
Journal:  J Biol Chem       Date:  2018-05-11       Impact factor: 5.157
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