TY - JOUR T1 - Ethnic-Related Sodium Voltage-Gated Channel <em>α</em> Subunit 5 Polymorphisms Shape the In Vitro Pharmacological Action of Amiodarone upon Na<sub>v</sub>1.5 JF - Molecular Pharmacology JO - Mol Pharmacol SP - 448 LP - 459 DO - 10.1124/molpharm.120.000176 VL - 99 IS - 6 AU - Julliane Vasconcelos Joviano-Santos AU - Artur Santos-Miranda AU - Jaqueline Oliveira Sarmento AU - Danilo Roman-Campos Y1 - 2021/06/01 UR - http://molpharm.aspetjournals.org/content/99/6/448.abstract N2 - Nav1.5-derived Na+ current (INa) exerts a pivotal role in the depolarization phase of cardiomyocytes’ action potential, and, therefore, changes in INa can contribute to fatal arrhythmias. Nav1.5 displays naturally occurring ethnicity-related polymorphisms, which might alter the functioning and pharmacology of the channel. Some studies have shown how single-nucleotide polymorphism can change the response to antiarrhythmic drugs. Investigations on the role of Nav1.5 in arrhythmogenesis associated with its functional polymorphisms are currently growing as well as the possible variability in the antiarrhythmic pharmacotherapy among ethnic groups. The influence of the ethnicity-related polymorphisms (S524Y, S1103Y, R1193Q, V1951L) on the responsiveness, selectivity, and pharmacological efficacy of the clinically used antiarrhythmic amiodarone (AMIO) is not completely known. Our objectives were to analyze biophysical and pharmacological aspects of four ethnicity-related polymorphisms before and after exposure to AMIO. Polymorphisms caused reduced AMIO potency compared with wild type (WT), which can vary by up to 4× between them. AMIO shifted the voltage dependency for current inactivation without significant effect in voltage-dependent activation to a similar extent in WT and polymorphisms. The recovery from inactivation was altered between the polymorphisms when compared with WT. Finally, the use dependency of AMIO differed between studied groups, especially at a more depolarized cell membrane. Thus, our work may guide future studies focusing on the efficiency of AMIO in treating different arrhythmias and establish more individualized guidelines for its use depending on the Nav1.5 polymorphism after validating our findings using in vivo studies.SIGNIFICANCE STATEMENT Sodium voltage-gated channel α subunit 5 (SCN5A) gene encodes the α subunit of Nav1.5, the main cardiac voltage-gated Na+ channel. Interestingly, ethnicity-related polymorphisms are found in SCN5A. Amiodarone is used in clinical practice, and some of its effects are attributed to interaction with Nav1.5. Important, amiodarone efficacy is variable among patients. Here we show that ethnicity-related SCN5A polymorphisms lead to altered Nav1.5-amiodarone interaction, which may be the cause for the variable efficacy observed in clinical usage of amiodarone. ER -