PLoS ONE (Jan 2012)

Allitridi inhibits multiple cardiac potassium channels expressed in HEK 293 cells.

  • Xiao-Hui Xu,
  • Hai-Ying Sun,
  • Yan-Hui Zhang,
  • Wei Wu,
  • Kui-Hao Chen,
  • Yi Liu,
  • Chun-Yu Deng,
  • Xi-Yong Yu,
  • Man-Wen Jin,
  • Gui-Rong Li

DOI
https://doi.org/10.1371/journal.pone.0051550
Journal volume & issue
Vol. 7, no. 12
p. e51550

Abstract

Read online

Allitridi (diallyl trisulfide) is an active compound (volatile oil) from garlic. The previous studies reported that allitridi had anti-arrhythmic effect. The potential ionic mechanisms are, however, not understood. The present study was designed to determine the effects of allitridi on cardiac potassium channels expressed in HEK 293 cells using a whole-cell patch voltage-clamp technique and mutagenesis. It was found that allitridi inhibited hKv4.3 channels (IC(50) = 11.4 µM) by binding to the open channel, shifting availability potential to hyperpolarization, and accelerating closed-state inactivation of the channel. The hKv4.3 mutants T366A, T367A, V392A, and I395A showed a reduced response to allitridi with IC(50)s of 35.5 µM, 44.7 µM, 23.7 µM, and 42.4 µM. In addition, allitridi decreased hKv1.5, hERG, hKCNQ1/hKCNE1 channels stably expressed in HEK 293 cells with IC(50)s of 40.2 µM, 19.6 µM and 17.7 µM. However, it slightly inhibited hKir2.1 current (100 µM, inhibited by 9.8% at -120 mV). Our results demonstrate for the first time that allitridi preferably blocks hKv4.3 current by binding to the open channel at T366 and T367 of P-loop helix, and at V392 and I395 of S6 domain. It has a weak inhibition of hKv1.5, hERG, and hKCNQ1/hKCNE1 currents. These effects may account for its anti-arrhythmic effect observed in experimental animal models.