Mutations in sodium channel {beta}-subunit SCN3B are associated with early-onset lone atrial fibrillation
Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt
Standard
Mutations in sodium channel {beta}-subunit SCN3B are associated with early-onset lone atrial fibrillation. / Olesen, Morten Salling; Jespersen, Thomas; Nielsen, Jonas Bille; Liang, Bo; Møller, Daniel Vega; Hedley, Paula; Christiansen, Michael; Varro, Andra´s; Olesen, Søren-Peter; Haunsø, Stig; Schmitt, Nicole; Svendsen, Jesper Hastrup.
I: Cardiovascular Research, Bind 89, Nr. 4, 2011, s. 786-793.Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt
Harvard
APA
Vancouver
Author
Bibtex
}
RIS
TY - JOUR
T1 - Mutations in sodium channel {beta}-subunit SCN3B are associated with early-onset lone atrial fibrillation
AU - Olesen, Morten Salling
AU - Jespersen, Thomas
AU - Nielsen, Jonas Bille
AU - Liang, Bo
AU - Møller, Daniel Vega
AU - Hedley, Paula
AU - Christiansen, Michael
AU - Varro, Andra´s
AU - Olesen, Søren-Peter
AU - Haunsø, Stig
AU - Schmitt, Nicole
AU - Svendsen, Jesper Hastrup
PY - 2011
Y1 - 2011
N2 - AIMS: Atrial fibrillation (AF) is the most frequent arrhythmia. Screening of SCN5A-the gene encoding the a-subunit of the cardiac sodium channel-has indicated that disturbances of the sodium current may play a central role in the mechanism of lone AF. We tested the hypothesis that lone AF in young patients is associated with genetic mutations in SCN3B and SCN4B, the genes encoding the two ß-subunits of the cardiac sodium channel. METHODS AND RESULTS: In 192 unrelated lone AF patients, the entire coding sequence and splice junctions of SCN3B and SCN4B were bidirectionally sequenced. Three non-synonymous mutations were found in SCN3B (R6K, L10P, and M161T). Two mutations were novel (R6K and M161T). None of the mutations were present in the control group (n = 432 alleles), nor have any been previously reported in conjunction with AF. All SCN3B mutations affected residues that are evolutionarily conserved across species. Electrophysiological studies on the SCN3B mutation were carried out and all three SCN3B mutations caused a functionally reduced sodium channel current. One synonymous variant was found in SCN4B. CONCLUSION: In 192 young lone AF patients, we found three patients with suspected disease-causing non-synonymous mutations in SCN3B, indicating that mutations in this gene contribute to the mechanism of lone AF. The three mutations in SCN3B were investigated electrophysiologically and all led to loss of function in the sodium current, supporting the hypothesis that decreased sodium current enhances AF susceptibility.
AB - AIMS: Atrial fibrillation (AF) is the most frequent arrhythmia. Screening of SCN5A-the gene encoding the a-subunit of the cardiac sodium channel-has indicated that disturbances of the sodium current may play a central role in the mechanism of lone AF. We tested the hypothesis that lone AF in young patients is associated with genetic mutations in SCN3B and SCN4B, the genes encoding the two ß-subunits of the cardiac sodium channel. METHODS AND RESULTS: In 192 unrelated lone AF patients, the entire coding sequence and splice junctions of SCN3B and SCN4B were bidirectionally sequenced. Three non-synonymous mutations were found in SCN3B (R6K, L10P, and M161T). Two mutations were novel (R6K and M161T). None of the mutations were present in the control group (n = 432 alleles), nor have any been previously reported in conjunction with AF. All SCN3B mutations affected residues that are evolutionarily conserved across species. Electrophysiological studies on the SCN3B mutation were carried out and all three SCN3B mutations caused a functionally reduced sodium channel current. One synonymous variant was found in SCN4B. CONCLUSION: In 192 young lone AF patients, we found three patients with suspected disease-causing non-synonymous mutations in SCN3B, indicating that mutations in this gene contribute to the mechanism of lone AF. The three mutations in SCN3B were investigated electrophysiologically and all led to loss of function in the sodium current, supporting the hypothesis that decreased sodium current enhances AF susceptibility.
KW - Faculty of Health and Medical Sciences
KW - Lone AF
KW - Genetics
KW - Nav1.5
KW - Nav b-subunits
KW - Sodium current
U2 - 10.1093/cvr/cvq348
DO - 10.1093/cvr/cvq348
M3 - Journal article
C2 - 21051419
VL - 89
SP - 786
EP - 793
JO - Cardiovascular Research
JF - Cardiovascular Research
SN - 0008-6363
IS - 4
ER -
ID: 32434348