Dan Hu1, Hector Barajas-Martínez2, Ryan Pfeiffer2, Fabio Dezi2, Jenna Pfeiffer2, Tapan Buch2, Matthew J Betzenhauser2, Luiz Belardinelli3, Kristopher M Kahlig3, Sridharan Rajamani3, Harry J DeAntonio4, Robert J Myerburg5, Hiroyuki Ito6, Pramod Deshmukh7, Mark Marieb8, Gi-Byoung Nam9, Atul Bhatia10, Can Hasdemir11, Michel Haïssaguerre12, Christian Veltmann13, Rainer Schimpf14, Martin Borggrefe14, Sami Viskin15, Charles Antzelevitch16. 1. Masonic Medical Research Laboratory, Utica, New York. Electronic address: dianah@mmrl.edu. 2. Masonic Medical Research Laboratory, Utica, New York. 3. Gilead Sciences, Fremont, California. 4. East Carolina Heart Institute, Brody School of Medicine, East Carolina University, Greenville, North Carolina. 5. University of Miami Miller School of Medicine, Miami, Florida. 6. Department of Cardiology, Showa University, Tokyo, Japan. 7. Guthrie Clinic, Sayre, Pennsylvania. 8. Yale University School of Medicine, New Haven, Connecticut. 9. Department of Internal Medicine, Asan Medical Center, University of Ulsan College of Medicine, Seoul, Republic of South Korea. 10. Aurora Cardiovascular Services, Milwaukee, Wisconsin. 11. Department of Cardiology, Ege University School of Medicine, Izmir, Turkey. 12. Hôspital Cardiologique du Haut Lévêque, Université Bordeaux II, Pessac, France. 13. Department of Cardiology and Angiology, Hannover Medical School, Hannover, Germany. 14. University Medical Centre Mannheim, German Centre for Cardiovascular Research, Heidelberg/Mannheim, Mannheim, Germany. 15. Department of Cardiology, Tel Aviv Sourasky Medical Center, Sackler School of Medicine, Tel Aviv University, Tel Aviv, Israel. 16. Masonic Medical Research Laboratory, Utica, New York. Electronic address: ca@mmrl.edu.
Abstract
BACKGROUND: BrS is an inherited sudden cardiac death syndrome. Less than 35% of BrS probands have genetically identified pathogenic variants. Recent evidence has implicated SCN10A, a neuronal sodium channel gene encoding Nav1.8, in the electrical function of the heart. OBJECTIVES: The purpose of this study was to test the hypothesis that SCN10A variants contribute to the development of Brugada syndrome (BrS). METHODS: Clinical analysis and direct sequencing of BrS susceptibility genes were performed for 150 probands and family members as well as >200 healthy controls. Expression and coimmunoprecipitation studies were performed to functionally characterize the putative pathogenic mutations. RESULTS: We identified 17 SCN10A mutations in 25 probands (20 male and 5 female); 23 of the 25 probands (92.0%) displayed overlapping phenotypes. SCN10A mutations were found in 16.7% of BrS probands, approaching our yield for SCN5A mutations (20.1%). Patients with BrS who had SCN10A mutations were more symptomatic and displayed significantly longer PR and QRS intervals compared with SCN10A-negative BrS probands. The majority of mutations localized to the transmembrane-spanning regions. Heterologous coexpression of wild-type (WT) SCN10A with WT-SCN5A in HEK cells caused a near doubling of sodium channel current compared with WT-SCN5A alone. In contrast, coexpression of SCN10A mutants (R14L and R1268Q) with WT-SCN5A caused a 79.4% and 84.4% reduction in sodium channel current, respectively. The coimmunoprecipitation studies provided evidence for the coassociation of Nav1.8 and Nav1.5 in the plasma membrane. CONCLUSIONS: Our study identified SCN10A as a major susceptibility gene for BrS, thus greatly enhancing our ability to genotype and risk stratify probands and family members.
BACKGROUND: BrS is an inherited sudden cardiac death syndrome. Less than 35% of BrS probands have genetically identified pathogenic variants. Recent evidence has implicated SCN10A, a neuronal sodium channel gene encoding Nav1.8, in the electrical function of the heart. OBJECTIVES: The purpose of this study was to test the hypothesis that SCN10A variants contribute to the development of Brugada syndrome (BrS). METHODS: Clinical analysis and direct sequencing of BrS susceptibility genes were performed for 150 probands and family members as well as >200 healthy controls. Expression and coimmunoprecipitation studies were performed to functionally characterize the putative pathogenic mutations. RESULTS: We identified 17 SCN10A mutations in 25 probands (20 male and 5 female); 23 of the 25 probands (92.0%) displayed overlapping phenotypes. SCN10A mutations were found in 16.7% of BrS probands, approaching our yield for SCN5A mutations (20.1%). Patients with BrS who had SCN10A mutations were more symptomatic and displayed significantly longer PR and QRS intervals compared with SCN10A-negative BrS probands. The majority of mutations localized to the transmembrane-spanning regions. Heterologous coexpression of wild-type (WT) SCN10A with WT-SCN5A in HEK cells caused a near doubling of sodium channel current compared with WT-SCN5A alone. In contrast, coexpression of SCN10A mutants (R14L and R1268Q) with WT-SCN5A caused a 79.4% and 84.4% reduction in sodium channel current, respectively. The coimmunoprecipitation studies provided evidence for the coassociation of Nav1.8 and Nav1.5 in the plasma membrane. CONCLUSIONS: Our study identified SCN10A as a major susceptibility gene for BrS, thus greatly enhancing our ability to genotype and risk stratify probands and family members.
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