Literature DB >> 22152306

Heterozygosity for a loss-of-function mutation in GALNT2 improves plasma triglyceride clearance in man.

Adriaan G Holleboom1, Helen Karlsson, Ruei-Shiuan Lin, Thomas M Beres, Jeroen A Sierts, Daniel S Herman, Erik S G Stroes, Johannes M Aerts, John J P Kastelein, Mohammad M Motazacker, Geesje M Dallinga-Thie, Johannes H M Levels, Aeilko H Zwinderman, Jonathan G Seidman, Christine E Seidman, Stefan Ljunggren, Dirk J Lefeber, Eva Morava, Ron A Wevers, Timothy A Fritz, Lawrence A Tabak, Mats Lindahl, G Kees Hovingh, Jan Albert Kuivenhoven.   

Abstract

Genome-wide association studies have identified GALNT2 as a candidate gene in lipid metabolism, but it is not known how the encoded enzyme ppGalNAc-T2, which contributes to the initiation of mucin-type O-linked glycosylation, mediates this effect. In two probands with elevated plasma high-density lipoprotein cholesterol and reduced triglycerides, we identified a mutation in GALNT2. It is shown that carriers have improved postprandial triglyceride clearance, which is likely attributable to attenuated glycosylation of apolipoprotein (apo) C-III, as observed in their plasma. This protein inhibits lipoprotein lipase (LPL), which hydrolyses plasma triglycerides. We show that an apoC-III-based peptide is a substrate for ppGalNAc-T2 while its glycosylation by the mutant enzyme is impaired. In addition, neuraminidase treatment of apoC-III which removes the sialic acids from its glycan chain decreases its potential to inhibit LPL. Combined, these data suggest that ppGalNAc-T2 can affect lipid metabolism through apoC-III glycosylation, thereby establishing GALNT2 as a lipid-modifying gene.
Copyright © 2011 Elsevier Inc. All rights reserved.

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Year:  2011        PMID: 22152306      PMCID: PMC3523677          DOI: 10.1016/j.cmet.2011.11.005

Source DB:  PubMed          Journal:  Cell Metab        ISSN: 1550-4131            Impact factor:   27.287


  37 in total

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Journal:  Biochim Biophys Acta       Date:  1972-09-07

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Journal:  J Clin Invest       Date:  1980-03       Impact factor: 14.808

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Journal:  Lancet       Date:  1979-09-29       Impact factor: 79.321

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Authors:  Suzan Wopereis; Stephanie Grünewald; Eva Morava; Johannes M Penzien; Paz Briones; M Teresa García-Silva; Pierre N M Demacker; Karin M L C Huijben; Ron A Wevers
Journal:  Clin Chem       Date:  2003-11       Impact factor: 8.327

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Review 10.  The role and mode of action of apolipoproteins CIII and AV: synergistic actors in triglyceride metabolism?

Authors:  Ko Willems van Dijk; Patrick C N Rensen; Peter J Voshol; Louis M Havekes
Journal:  Curr Opin Lipidol       Date:  2004-06       Impact factor: 4.776
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  42 in total

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Authors:  Hudson H Freeze; Erik A Eklund; Bobby G Ng; Marc C Patterson
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Review 2.  HDL and atherosclerotic cardiovascular disease: genetic insights into complex biology.

Authors:  Robert S Rosenson; H Bryan Brewer; Philip J Barter; Johan L M Björkegren; M John Chapman; Daniel Gaudet; Daniel Seung Kim; Eric Niesor; Kerry-Anne Rye; Frank M Sacks; Jean-Claude Tardif; Robert A Hegele
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3.  A glycogene mutation map for discovery of diseases of glycosylation.

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Journal:  Glycobiology       Date:  2014-09-28       Impact factor: 4.313

4.  O-glycosylation regulates polarized secretion by modulating Tango1 stability.

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5.  Subacute cannabidiol alters genome-wide DNA methylation in adult mouse hippocampus.

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6.  Mucin-type O-glycosylation is controlled by short- and long-range glycopeptide substrate recognition that varies among members of the polypeptide GalNAc transferase family.

Authors:  Leslie Revoredo; Shengjun Wang; Eric Paul Bennett; Henrik Clausen; Kelley W Moremen; Donald L Jarvis; Kelly G Ten Hagen; Lawrence A Tabak; Thomas A Gerken
Journal:  Glycobiology       Date:  2015-11-26       Impact factor: 4.313

7.  Strategies to fine-map genetic associations with lipid levels by combining epigenomic annotations and liver-specific transcription profiles.

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8.  The lectin domain of the polypeptide GalNAc transferase family of glycosyltransferases (ppGalNAc Ts) acts as a switch directing glycopeptide substrate glycosylation in an N- or C-terminal direction, further controlling mucin type O-glycosylation.

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9.  Loss of Function of GALNT2 Lowers High-Density Lipoproteins in Humans, Nonhuman Primates, and Rodents.

Authors:  Sumeet A Khetarpal; Katrine T Schjoldager; Christina Christoffersen; Avanthi Raghavan; Andrew C Edmondson; Heiko M Reutter; Bouhouche Ahmed; Reda Ouazzani; Gina M Peloso; Cecilia Vitali; Wei Zhao; Amritha Varshini Hanasoge Somasundara; John S Millar; YoSon Park; Gayani Fernando; Valentin Livanov; Seungbum Choi; Eric Noé; Pritesh Patel; Siew Peng Ho; Todd G Kirchgessner; Hans H Wandall; Lars Hansen; Eric P Bennett; Sergey Y Vakhrushev; Danish Saleheen; Sekar Kathiresan; Christopher D Brown; Rami Abou Jamra; Eric LeGuern; Henrik Clausen; Daniel J Rader
Journal:  Cell Metab       Date:  2016-08-09       Impact factor: 27.287

10.  Disialylated apolipoprotein C-III proteoform is associated with improved lipids in prediabetes and type 2 diabetes.

Authors:  Juraj Koska; Hussein Yassine; Olgica Trenchevska; Shripad Sinari; Dawn C Schwenke; Frances T Yen; Dean Billheimer; Randall W Nelson; Dobrin Nedelkov; Peter D Reaven
Journal:  J Lipid Res       Date:  2016-03-03       Impact factor: 5.922
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