Platelets and Defective N-Glycosylation

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Abstract

N-glycans are covalently linked to an asparagine residue in a simple acceptor sequence of proteins, called a sequon. This modification is important for protein folding, enhancing thermodynamic stability, and decreasing abnormal protein aggregation within the endoplasmic reticulum (ER), for the lifetime and for the subcellular localization of proteins besides other functions. Hypoglycosylation is the hallmark of a group of rare genetic diseases called congenital disorders of glycosylation (CDG). These diseases are due to defects in glycan synthesis, processing, and attachment to proteins and lipids, thereby modifying signaling functions and metabolic pathways. Defects in N-glycosylation and O-glycosylation constitute the largest CDG groups. Clotting and anticlotting factor defects as well as a tendency to thrombosis or bleeding have been described in CDG patients. However, N-glycosylation of platelet proteins has been poorly investigated in CDG. In this review, we highlight normal and deficient N-glycosylation of platelet-derived molecules and discuss the involvement of platelets in the congenital disorders of N-glycosylation.

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The SLC2 (GLUT) family of membrane transporters.

Mike Mueckler, Bernard Thorens (2013)

GLUT proteins are encoded by the SLC2 genes and are members of the major facilitator superfamily of membrane transporters. Fourteen GLUT proteins are expressed in the human and they are categorized into three classes based on sequence similarity. All GLUTs appear to transport hexoses or polyols when expressed ectopically, but the primary physiological substrates for several of the GLUTs remain uncertain. GLUTs 1-5 are the most thoroughly studied and all have well established roles as glucose and/or fructose transporters in various tissues and cell types. The GLUT proteins are comprised of ∼500 amino acid residues, possess a single N-linked oligosaccharide, and have 12 membrane-spanning domains. In this review we briefly describe the major characteristics of the 14 GLUT family members. Copyright © 2012 Elsevier Ltd. All rights reserved.

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Direct activation of human TRPC6 and TRPC3 channels by diacylglycerol.

T. Hofmann, A G Obukhov, M. Schaefer … (1999)

Eukaryotic cells respond to many hormones and neurotransmitters with increased activity of the enzyme phospholipase C and a subsequent rise in the concentration of intracellular free calcium ([Ca2+]i). The increase in [Ca2+]i occurs as a result of the release of Ca2+ from intracellular stores and an influx of Ca2+ through the plasma membrane; this influx of Ca2+ may or may not be store-dependent. Drosophila transient receptor potential (TRP) proteins and some mammalian homologues (TRPC proteins) are thought to mediate capacitative Ca2+ entry. Here we describe the molecular mechanism of store-depletion-independent activation of a subfamily of mammalian TRPC channels. We find that hTRPC6 is a non-selective cation channel that is activated by diacylglycerol in a membrane-delimited fashion, independently of protein kinases C activated by diacylglycerol. Although hTRPC3, the closest structural relative of hTRPC6, is activated in the same way, TRPCs 1, 4 and 5 and the vanilloid receptor subtype 1 are unresponsive to the lipid mediator. Thus, hTRPC3 and hTRPC6 represent the first members of a new functional family of second-messenger-operated cation channels, which are activated by diacylglycerol.

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Platelet secretion: From haemostasis to wound healing and beyond

Ewelina M. Golebiewska, Alastair Poole (2015)

Upon activation, platelets secrete more than 300 active substances from their intracellular granules. Platelet dense granule components, such as ADP and polyphosphates, contribute to haemostasis and coagulation, but also play a role in cancer metastasis. α-Granules contain multiple cytokines, mitogens, pro- and anti-inflammatory factors and other bioactive molecules that are essential regulators in the complex microenvironment of the growing thrombus but also contribute to a number of disease processes. Our understanding of the molecular mechanisms of secretion and the genetic regulation of granule biogenesis still remains incomplete. In this review we summarise our current understanding of the roles of platelet secretion in health and disease, and discuss some of the hypotheses that may explain how platelets may control the release of its many secreted components in a context-specific manner, to allow platelets to play multiple roles in health and disease.

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Journal ID (nlm-ta): Int J Mol Sci

Journal ID (iso-abbrev): Int J Mol Sci

Journal ID (publisher-id): ijms

Title: International Journal of Molecular Sciences

Publisher: MDPI

ISSN (Electronic): 1422-0067

Publication date (Electronic): 06 August 2020

Publication date Collection: August 2020

Volume: 21

Issue: 16

Electronic Location Identifier: 5630

Affiliations

[1 ]Division of Nephrology, Department of Medicine IV, Hospital of the Ludwig Maximilian University of Munich, 80336 Munich, Germany

[2 ]Center for Metabolic Diseases, KU Leuven, 3000 Leuven, Belgium; jaak.jaeken@ 123456kuleuven.be

[3 ]Walther-Straub-Institute for Pharmacology and Toxicology, Ludwig Maximilian University, 80336 Munich, Germany; thomas.gudermann@ 123456lrz.uni-muenchen.de

Author notes

[* ]Correspondence: elmina.bach@ 123456med.uni-muenchen.de (E.M.-B.); attila.braun@ 123456lrz.uni-muenchen.de (A.B.); Tel.: +49-89440052129 (E.M.-B.); +49-89218075720 (A.B.); Fax: +49-8940053379 (E.M.-B.); +49-89218075701 (A.B.)

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Thomas Gudermann https://orcid.org/0000-0002-0323-7965

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Publisher ID: ijms-21-05630

DOI: 10.3390/ijms21165630

PMC ID: 7460655

PubMed ID: 32781578

SO-VID: 81be422a-a606-41bd-9617-9f8df3c4e6d0

License:

Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license ( http://creativecommons.org/licenses/by/4.0/).

Platelets and Defective N-Glycosylation

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Higher order chromatin architecture

Most cited references 113

The SLC2 (GLUT) family of membrane transporters.

Direct activation of human TRPC6 and TRPC3 channels by diacylglycerol.

Platelet secretion: From haemostasis to wound healing and beyond

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