AI Article Synopsis
- Cardiac arrhythmias are a leading cause of sudden cardiac death, with Torsade de Pointes being a critical type arising from prolonged ventricular action potential duration (APD).
- Researchers investigated a chemical, C28, which was found to activate the I potassium channel in a way that normalizes APD in the heart without affecting normal heart function.
- The findings suggest that targeting the I channel's activation could offer new therapeutic strategies to prevent arrhythmias associated with existing medications that prolong APD.
Article Abstract
Cardiac arrhythmias are the most common cause of sudden cardiac death worldwide. Lengthening the ventricular action potential duration (APD), either congenitally or via pathologic or pharmacologic means, predisposes to a life-threatening ventricular arrhythmia, Torsade de Pointes. I (KCNQ1+KCNE1), a slowly activating K current, plays a role in action potential repolarization. In this study, we screened a chemical library in silico by docking compounds to the voltage-sensing domain (VSD) of the I channel. Here, we show that C28 specifically shifted I VSD activation in ventricle to more negative voltages and reversed the drug-induced lengthening of APD. At the same dosage, C28 did not cause significant changes of the normal APD in either ventricle or atrium. This study provides evidence in support of a computational prediction of I VSD activation as a potential therapeutic approach for all forms of APD prolongation. This outcome could expand the therapeutic efficacy of a myriad of currently approved drugs that may trigger arrhythmias.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8157969 | PMC |
| http://dx.doi.org/10.1073/pnas.2024215118 | DOI Listing |
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