Literature DB >> 27246624

FGF13 modulates the gating properties of the cardiac sodium channel Nav1.5 in an isoform-specific manner.

Jing Yang1, Zhihua Wang2, Daniel S Sinden3, Xiangchong Wang2, Bin Shan2, Xiao Yu4, Hailin Zhang2, Geoffrey S Pitt3, Chuan Wang2.   

Abstract

FGF13 (FHF2), the major fibroblast growth factor homologous factor (FHF) in rodent heart, directly binds to the C-terminus of the main cardiac sodium channel, NaV1.5. Knockdown of FGF13 in cardiomyocytes induces slowed ventricular conduction by altering NaV1.5 function. FGF13 has five splice variants, each of which possess the same core region and C terminus but differing in their respective N termini. Whether and how these alternatively spliced N termini impart isoform-specific regulation of NaV1.5, however, has not been reported. Here, we exploited a heterologous expression to explore the specific modulatory effects of FGF13 splice variants FGF13S, FGF13U and FGF13YV on NaV1.5 function. We found these three splice variants differentially modulated NaV1.5 current density. Although steady-state activation was unaltered by any of the FGF13 isoforms (compared to control cells expressing Nav1.5 but not expressing FGF13), open-state fast inactivation and closed-state fast inactivation were markedly slowed, steady-state availability was significantly shifted toward the depolarizing direction, and the window current was increased by each of FGF13 isoforms. Most strikingly, FGF13S hastened the rate of NaV1.5 entry into the slow inactivation state and induced a dramatic slowing of recovery from inactivation, which caused a large decrease in current after either low or high frequency stimulation. Overall, these data showed the diversity of the roles of the FGF13 N-termini in NaV1.5 channel modulation and suggested the importance of isoform-specific regulation.

Entities:  

Keywords:  FGF13; N-termini; Nav1.5; activation; fibroblast growth factor homologous factors; gating; inactivation; isoform; recovery from inactivation; voltage gated sodium channels

Mesh:

Substances:

Year:  2016        PMID: 27246624      PMCID: PMC4988462          DOI: 10.1080/19336950.2016.1190055

Source DB:  PubMed          Journal:  Channels (Austin)        ISSN: 1933-6950            Impact factor:   2.581


  34 in total

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Review 3.  International Union of Pharmacology. XLVII. Nomenclature and structure-function relationships of voltage-gated sodium channels.

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Authors:  I Munoz-Sanjuan; P M Smallwood; J Nathans
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7.  A novel SCN5A mutation associated with idiopathic ventricular fibrillation without typical ECG findings of Brugada syndrome.

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1.  Conditional knockout of Fgf13 in murine hearts increases arrhythmia susceptibility and reveals novel ion channel modulatory roles.

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2.  C-terminal phosphorylation of NaV1.5 impairs FGF13-dependent regulation of channel inactivation.

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Authors:  Qiong Wang; Jing Yang; Handong Wang; Bin Shan; Chengyu Yin; Hang Yu; Xuerou Zhang; Zishan Dong; Yulou Yu; Ran Zhao; Boyi Liu; Hailin Zhang; Chuan Wang
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4.  Knockout of the X-linked Fgf13 in the hypothalamic paraventricular nucleus impairs sympathetic output to brown fat and causes obesity.

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Journal:  FASEB J       Date:  2019-07-24       Impact factor: 5.834

Review 5.  Structures Illuminate Cardiac Ion Channel Functions in Health and in Long QT Syndrome.

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Journal:  Nat Commun       Date:  2021-01-19       Impact factor: 14.919

8.  Nav1.3 and FGF14 are primary determinants of the TTX-sensitive sodium current in mouse adrenal chromaffin cells.

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Journal:  J Gen Physiol       Date:  2021-04-05       Impact factor: 4.000

9.  Biophysical mechanisms for QRS- and QTc-interval prolongation in mice with cardiac expression of expanded CUG-repeat RNA.

Authors:  Kevin M Tylock; David S Auerbach; Zhen Zhi Tang; Charles A Thornton; Robert T Dirksen
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10.  Fibroblast growth factor homologous factors tune arrhythmogenic late NaV1.5 current in calmodulin binding-deficient channels.

Authors:  Jeffrey Abrams; Daniel Roybal; Nourdine Chakouri; Alexander N Katchman; Richard Weinberg; Lin Yang; Bi-Xing Chen; Sergey I Zakharov; Jessica A Hennessey; Uma Mahesh R Avula; Johanna Diaz; Chaojian Wang; Elaine Y Wan; Geoffrey S Pitt; Manu Ben-Johny; Steven O Marx
Journal:  JCI Insight       Date:  2020-10-02
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