ABT-333 (Dasabuvir) Increases Action Potential Duration and Provokes Early Afterdepolarizations in Canine Left Ventricular Cells via Inhibition of I Kr .
Zsigmond Máté KovácsJózsef ÓváriCsaba DienesJános MagyarTamas BanyaszPéter P NánásiBalázs HorváthÁdám FehérZoltan VargaNorbert SzentandrássyPublished in: Pharmaceuticals (Basel, Switzerland) (2023)
ABT-333 (dasabuvir) is an antiviral agent used in hepatitis C treatment. The molecule, similarly to some inhibitors of hERG channels, responsible for the delayed rectifier potassium current (I Kr ), contains the methanesulfonamide group. Reduced I Kr current leads to long QT syndrome and early afterdepolarizations (EADs), therefore potentially causing life-threatening arrhythmias and sudden cardiac death. Our goal was to investigate the acute effects of ABT-333 in enzymatically isolated canine left ventricular myocardial cells. Action potentials (APs) and ion currents were recorded with a sharp microelectrode technique and whole-cell patch clamp, respectively. Application of 1 μM ABT-333 prolonged the AP in a reversible manner. The maximal rates of phases 0 and 1 were irreversibly decreased. Higher ABT-333 concentrations caused larger AP prolongation, elevation of the early plateau potential, and reduction of maximal rates of phases 0, 1, and 3. EADs occurred in some cells in 3-30 μM ABT-333 concentrations. The 10 μM ABT-333-sensitive current, recorded with AP voltage clamp, contained a late outward component corresponding to I Kr and an early outward one corresponding to transient outward potassium current (I to ). ABT-333 reduced hERG-channel-mediated ion current in a concentration-dependent, partially reversible manner with a half-inhibitory concentration of 3.2 μM. As the therapeutic plasma concentration of ABT-333 is 1 nM, the arrhythmic risk of ABT-333 is very low, even in the case of drug overdose.
Keyphrases
- left ventricular
- induced apoptosis
- cell cycle arrest
- transcription factor
- hepatitis c virus
- heart failure
- acute myocardial infarction
- drug induced
- single cell
- case report
- intensive care unit
- mesenchymal stem cells
- blood pressure
- blood brain barrier
- oxidative stress
- hypertrophic cardiomyopathy
- smoking cessation
- deep brain stimulation
- cardiac resynchronization therapy
- respiratory failure