Literature DB >> 24971539

Physiologic and pathophysiologic consequences of altered sialylation and glycosylation on ion channel function.

Deniz Baycin-Hizal1, Allan Gottschalk2, Elena Jacobson3, Sunny Mai3, Daniel Wolozny3, Hui Zhang4, Sharon S Krag5, Michael J Betenbaugh3.   

Abstract

Voltage-gated ion channels are transmembrane proteins that regulate electrical excitability in cells and are essential components of the electrically active tissues of nerves, muscle and the heart. Potassium channels are one of the largest subfamilies of voltage sensitive channels and are among the most-studied of the voltage-gated ion channels. Voltage-gated channels can be glycosylated and changes in the glycosylation pattern can affect ion channel function, leading to neurological and neuromuscular disorders and congenital disorders of glycosylation (CDG). Alterations in glycosylation can also be acquired and appear to play a role in development and aging. Recent studies have focused on the impact of glycosylation and sialylation on ion channels, particularly for voltage-gated potassium and sodium channels. The terminal step of sialylation often affects channel activation and inactivation kinetics. The presence of sialic acids on O or N-glycans can alter the gating mechanism and cause conformational changes in the voltage-sensing domains due to sialic acid's negative charges. This manuscript will provide an overview of sialic acids, potassium and sodium channel function, and the impact of sialylation on channel activation and deactivation.
Copyright © 2014 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Congenital disorders of glycosylation; Glycosylation; Neurological disorders; Sialylation; Voltage-gated potassium channels; Voltage-gated sodium channels

Mesh:

Substances:

Year:  2014        PMID: 24971539      PMCID: PMC4544737          DOI: 10.1016/j.bbrc.2014.06.067

Source DB:  PubMed          Journal:  Biochem Biophys Res Commun        ISSN: 0006-291X            Impact factor:   3.575


  101 in total

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2.  Effects of aging, body mass index, plasma lipid profiles, and smoking on human plasma N-glycans.

Authors:  Ana Knezevic; Olga Gornik; Ozren Polasek; Maja Pucic; Irma Redzic; Mislav Novokmet; Pauline M Rudd; Alan F Wright; Harry Campbell; Igor Rudan; Gordan Lauc
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3.  Dendritic Kv3.3 potassium channels in cerebellar purkinje cells regulate generation and spatial dynamics of dendritic Ca2+ spikes.

Authors:  Edward Zagha; Satoshi Manita; William N Ross; Bernardo Rudy
Journal:  J Neurophysiol       Date:  2010-03-31       Impact factor: 2.714

4.  Glycosylation of shaker potassium channel protein in insect cell culture and in Xenopus oocytes.

Authors:  L Santacruz-Toloza; Y Huang; S A John; D M Papazian
Journal:  Biochemistry       Date:  1994-05-10       Impact factor: 3.162

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6.  Sialic acids attached to O-glycans modulate voltage-gated potassium channel gating.

Authors:  Tara A Schwetz; Sarah A Norring; Andrew R Ednie; Eric S Bennett
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Authors:  Xiuxia Zhou; Carol L Kinlough; Rebecca P Hughey; Mingzhu Jin; Hideki Inoue; Emily Etling; Brian D Modena; Naftali Kaminski; Eugene R Bleecker; Deborah A Meyers; Nizar N Jarjour; John B Trudeau; Fernando Holguin; Anuradha Ray; Sally E Wenzel
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Review 3.  Using iPSC Models to Probe Regulation of Cardiac Ion Channel Function.

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Review 4.  Sialic acids: biomarkers in endocrinal cancers.

Authors:  Shyamasree Ghosh
Journal:  Glycoconj J       Date:  2015-03-17       Impact factor: 2.916

Review 5.  Cardiac complications of congenital disorders of glycosylation (CDG): a systematic review of the literature.

Authors:  D Marques-da-Silva; R Francisco; D Webster; V Dos Reis Ferreira; J Jaeken; T Pulinilkunnil
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6.  Asparagine-linked glycosylation modifies voltage-dependent gating properties of CaV3.1-T-type Ca2+ channel.

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7.  Modulation of Cav3.2 T-type calcium channel permeability by asparagine-linked glycosylation.

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8.  Single amino acid deletion in transmembrane segment D4S6 of sodium channel Scn8a (Nav1.6) in a mouse mutant with a chronic movement disorder.

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9.  N-linked glycosylation of Kv1.2 voltage-gated potassium channel facilitates cell surface expression and enhances the stability of internalized channels.

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10.  A recurrent missense variant in SLC9A7 causes nonsyndromic X-linked intellectual disability with alteration of Golgi acidification and aberrant glycosylation.

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