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ABCC9 is a novel Brugada and early repolarization syndrome susceptibility gene.
- Hu, Dan;
- Barajas-Martínez, Hector;
- Terzic, Andre;
- Park, Sungjo;
- Pfeiffer, Ryan;
- Burashnikov, Elena;
- Wu, Yuesheng;
- Borggrefe, Martin;
- Veltmann, Christian;
- Schimpf, Rainer;
- Cai, John;
- Nam, Gi-Byong;
- Deshmukh, Pramod;
- Preminger, Mark;
- Steinberg, Jonathan;
- López-Izquierdo, Angélica;
- Ponce-Balbuena, Daniela;
- Wolpert, Christian;
- Haïssaguerre, Michel;
- Sánchez-Chapula, José;
- Antzelevitch, Charles;
- Scheinman, Melvin
- et al.
Published Web Location
https://doi.org/10.1016/j.ijcard.2013.12.084Abstract
BACKGROUND: Genetic defects in KCNJ8, encoding the Kir6.1 subunit of the ATP-sensitive K(+) channel (I(K-ATP)), have previously been associated with early repolarization (ERS) and Brugada (BrS) syndromes. Here we test the hypothesis that genetic variants in ABCC9, encoding the ATP-binding cassette transporter of IK-ATP (SUR2A), are also associated with both BrS and ERS. METHODS AND RESULTS: Direct sequencing of all ERS/BrS susceptibility genes was performed on 150 probands and family members. Whole-cell and inside-out patch-clamp methods were used to characterize mutant channels expressed in TSA201-cells. Eight ABCC9 mutations were uncovered in 11 male BrS probands. Four probands, diagnosed with ERS, carried a highly-conserved mutation, V734I-ABCC9. Functional expression of the V734I variant yielded a Mg-ATP IC₅₀ that was 5-fold that of wild-type (WT). An 18-y/o male with global ERS inherited an SCN5A-E1784K mutation from his mother, who displayed long QT intervals, and S1402C-ABCC9 mutation from his father, who displayed an ER pattern. ABCC9-S1402C likewise caused a gain of function of IK-ATP with a shift of ATP IC₅₀ from 8.5 ± 2 mM to 13.4 ± 5 μM (p<0.05). The SCN5A mutation reduced peak INa to 39% of WT (p<0.01), shifted steady-state inactivation by -18.0 mV (p<0.01) and increased late I(Na) from 0.14% to 2.01% of peak I(Na) (p<0.01). CONCLUSION: Our study is the first to identify ABCC9 as a susceptibility gene for ERS and BrS. Our findings also suggest that a gain-of-function in I(K-ATP) when coupled with a loss-of-function in SCN5A may underlie type 3 ERS, which is associated with a severe arrhythmic phenotype.
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