Gain-of-function mutation S422L in the KCNJ8-encoded cardiac KATP channel Kir6. 1 as a pathogenic substrate for J-wave syndromes

A Medeiros-Domingo, BH Tan, L Crotti, DJ Tester… - Heart rhythm, 2010 - Elsevier
A Medeiros-Domingo, BH Tan, L Crotti, DJ Tester, L Eckhardt, A Cuoretti, SL Kroboth…
Heart rhythm, 2010Elsevier
BACKGROUND: J-wave syndromes have emerged conceptually to encompass the
pleiotropic expression of J-point abnormalities including Brugada syndrome (BrS) and early
repolarization syndrome (ERS). KCNJ8, which encodes the cardiac KATP Kir6. 1 channel,
recently has been implicated in ERS following identification of the functionally
uncharacterized missense mutation S422L. OBJECTIVE: The purpose of this study was to
further explore KCNJ8 as a novel susceptibility gene for J-wave syndromes. METHODS …
BACKGROUND
J-wave syndromes have emerged conceptually to encompass the pleiotropic expression of J-point abnormalities including Brugada syndrome (BrS) and early repolarization syndrome (ERS). KCNJ8, which encodes the cardiac KATP Kir6.1 channel, recently has been implicated in ERS following identification of the functionally uncharacterized missense mutation S422L.
OBJECTIVE
The purpose of this study was to further explore KCNJ8 as a novel susceptibility gene for J-wave syndromes.
METHODS
Using polymerase chain reaction, denaturing high0performance liquid chromatography, and direct DNA sequencing, comprehensive open reading frame/splice site mutational analysis of KCNJ8 was performed in 101 unrelated patients with J-wave syndromes, including 87 with BrS and 14 with ERS. Six hundred healthy individuals were examined to assess the allelic frequency for all variants detected. KCNJ8 mutation(s) was engineered by site-directed mutagenesis and coexpressed heterologously with SUR2A in COS-1 cells. Ion currents were recorded using whole-cell configuration of the patch-clamp technique.
RESULTS
One BrS case and one ERS case hosted the identical missense mutation S422L, which was reported previously. KCNJ8-S422L involves a highly conserved residue and was absent in 1,200 reference alleles. Both cases were negative for mutations in all known BrS and ERS susceptibility genes. KATP current of the Kir6.1-S422L mutation was increased significantly over the voltage range from 0 to 40 mV compared to Kir6.1-WT channels (n = 16–21; P <.05).
CONCLUSION
These findings further implicate KCNJ8 as a novel J-wave syndrome susceptibility gene and a marked gain of function in the cardiac KATP Kir6.1 channel secondary to KCNJ8-S422L as a novel pathogenic mechanism for the phenotypic expression of both BrS and ERS.
Elsevier