RATIONALE: The SCN10A gene encodes the neuronal sodium channel isoform Na(V)1.8. Several recent genome-wide association studies have linked SCN10A to PR interval and QRS duration, strongly suggesting an as-yet unknown role for Na(V)1.8 in cardiac electrophysiology. OBJECTIVE: To demonstrate the functional presence of SCN10A/Nav1.8 in intracardiac neurons of the mouse heart. METHODS AND RESULTS: Immunohistochemistry on mouse tissue sections showed intense Na(V)1.8 labeling in dorsal root ganglia and intracardiac ganglia and only modest Na(V)1.8 expression within the myocardium. Immunocytochemistry further revealed substantial Na(V)1.8 staining in isolated neurons from murine intracardiac ganglia but no Na(V)1.8 expression in isolated ventricular myocytes. Patch-clamp studies demonstrated that the Na(V)1.8 blocker A-803467 (0.5-2 μmol/L) had no effect on either mean sodium current (I(Na)) density or I(Na) gating kinetics in isolated myocytes but significantly reduced I(Na) density in intracardiac neurons. Furthermore, A-803467 accelerated the slow component of current decay and shifted voltage dependence of inactivation toward more negative voltages, as expected for blockade of Na(V)1.8-based I(Na). In line with these findings, A-803467 did not affect cardiomyocyte action potential upstroke velocity but markedly reduced action potential firing frequency in intracardiac neurons, confirming a functional role for Na(V)1.8 in cardiac neural activity. CONCLUSIONS: Our findings demonstrate the functional presence of SCN10A/Na(V)1.8 in intracardiac neurons, indicating a novel role for this neuronal sodium channel in regulation of cardiac electric activity.
RATIONALE: The SCN10A gene encodes the neuronal sodium channel isoform Na(V)1.8. Several recent genome-wide association studies have linked SCN10A to PR interval and QRS duration, strongly suggesting an as-yet unknown role for Na(V)1.8 in cardiac electrophysiology. OBJECTIVE: To demonstrate the functional presence of SCN10A/Nav1.8 in intracardiac neurons of the mouse heart. METHODS AND RESULTS: Immunohistochemistry on mouse tissue sections showed intense Na(V)1.8 labeling in dorsal root ganglia and intracardiac ganglia and only modest Na(V)1.8 expression within the myocardium. Immunocytochemistry further revealed substantial Na(V)1.8 staining in isolated neurons from murine intracardiac ganglia but no Na(V)1.8 expression in isolated ventricular myocytes. Patch-clamp studies demonstrated that the Na(V)1.8 blocker A-803467 (0.5-2 μmol/L) had no effect on either mean sodium current (I(Na)) density or I(Na) gating kinetics in isolated myocytes but significantly reduced I(Na) density in intracardiac neurons. Furthermore, A-803467 accelerated the slow component of current decay and shifted voltage dependence of inactivation toward more negative voltages, as expected for blockade of Na(V)1.8-based I(Na). In line with these findings, A-803467 did not affect cardiomyocyte action potential upstroke velocity but markedly reduced action potential firing frequency in intracardiac neurons, confirming a functional role for Na(V)1.8 in cardiac neural activity. CONCLUSIONS: Our findings demonstrate the functional presence of SCN10A/Na(V)1.8 in intracardiac neurons, indicating a novel role for this neuronal sodium channel in regulation of cardiac electric activity.
Authors: M D Abou Ziki; S B Seidelmann; E Smith; G Atteya; Y Jiang; R G Fernandes; M A Marieb; J G Akar; A Mani Journal: Clin Genet Date: 2017-05-18 Impact factor: 4.438
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Authors: Honghuang Lin; Jessica van Setten; Albert V Smith; Nathan A Bihlmeyer; Helen R Warren; Jennifer A Brody; Farid Radmanesh; Leanne Hall; Niels Grarup; Martina Müller-Nurasyid; Thibaud Boutin; Niek Verweij; Henry J Lin; Ruifang Li-Gao; Marten E van den Berg; Jonathan Marten; Stefan Weiss; Bram P Prins; Jeffrey Haessler; Leo-Pekka Lyytikäinen; Hao Mei; Tamara B Harris; Lenore J Launer; Man Li; Alvaro Alonso; Elsayed Z Soliman; John M Connell; Paul L Huang; Lu-Chen Weng; Heather S Jameson; William Hucker; Alan Hanley; Nathan R Tucker; Yii-Der Ida Chen; Joshua C Bis; Kenneth M Rice; Colleen M Sitlani; Jan A Kors; Zhijun Xie; Chengping Wen; Jared W Magnani; Christopher P Nelson; Jørgen K Kanters; Moritz F Sinner; Konstantin Strauch; Annette Peters; Melanie Waldenberger; Thomas Meitinger; Jette Bork-Jensen; Oluf Pedersen; Allan Linneberg; Igor Rudan; Rudolf A de Boer; Peter van der Meer; Jie Yao; Xiuqing Guo; Kent D Taylor; Nona Sotoodehnia; Jerome I Rotter; Dennis O Mook-Kanamori; Stella Trompet; Fernando Rivadeneira; André Uitterlinden; Mark Eijgelsheim; Sandosh Padmanabhan; Blair H Smith; Henry Völzke; Stephan B Felix; Georg Homuth; Uwe Völker; Massimo Mangino; Timothy D Spector; Michiel L Bots; Marco Perez; Mika Kähönen; Olli T Raitakari; Vilmundur Gudnason; Dan E Arking; Patricia B Munroe; Bruce M Psaty; Cornelia M van Duijn; Emelia J Benjamin; Jonathan Rosand; Nilesh J Samani; Torben Hansen; Stefan Kääb; Ozren Polasek; Pim van der Harst; Susan R Heckbert; J Wouter Jukema; Bruno H Stricker; Caroline Hayward; Marcus Dörr; Yalda Jamshidi; Folkert W Asselbergs; Charles Kooperberg; Terho Lehtimäki; James G Wilson; Patrick T Ellinor; Steven A Lubitz; Aaron Isaacs Journal: Circ Genom Precis Med Date: 2018-05
Authors: Dan Hu; Hector Barajas-Martínez; Ryan Pfeiffer; Fabio Dezi; Jenna Pfeiffer; Tapan Buch; Matthew J Betzenhauser; Luiz Belardinelli; Kristopher M Kahlig; Sridharan Rajamani; Harry J DeAntonio; Robert J Myerburg; Hiroyuki Ito; Pramod Deshmukh; Mark Marieb; Gi-Byoung Nam; Atul Bhatia; Can Hasdemir; Michel Haïssaguerre; Christian Veltmann; Rainer Schimpf; Martin Borggrefe; Sami Viskin; Charles Antzelevitch Journal: J Am Coll Cardiol Date: 2014-07-08 Impact factor: 24.094