1. Academic Validation
  2. Pharmacology of bepridil

Pharmacology of bepridil

  • Am J Cardiol. 1992 Apr 9;69(11):11D-16D. doi: 10.1016/0002-9149(92)90953-v.
A Gill 1 S F Flaim B P Damiano S P Sit M D Brannan
Affiliations

Affiliation

  • 1 Department of Cardiovascular Pharmacology, R.W. Johnson Pharmaceutical Research Institute, Spring House, Pennsylvania.
Abstract

Bepridil is an antianginal agent with multiple therapeutic actions. It decreases calcium influx through potential-dependent and receptor-operated sarcolemmic calcium channels and acts intracellularly as a Calmodulin Antagonist and calcium sensitizer. Thus, in cardiac muscle it enhances the sensitivity of troponin C to calcium, stimulates myofibrillar adenosine triphosphatase activity, removes calmodulin's inhibitory effect on sarcoplasmic reticulum calcium release, and inhibits sodium-calcium exchange--actions that tend to offset the effects of calcium influx blockade on cardiac contractile force. However, in vascular smooth muscle where the calcium-calmodulin complex promotes muscle contraction by activating Myosin light-chain kinase phosphorylation of contractile proteins, Calmodulin antagonism, coupled with bepridil's blockade of calcium influx, leads to vasorelaxation. In animal models of ischemia, bepridil and other Calmodulin inhibitors show antiarrhythmic efficacy following reperfusion. Additionally, interfering with calmodulin's role in sympathetic nerve terminal function may help to limit the ischemia-induced Catecholamine release that contributes to arrhythmogenesis. Bepridil shows a lidocaine-like fast kinetic block of inward sodium current (as distinct from the slow or intermediate kinetic inhibition expressed by encainide or quinidine, respectively). This inhibition is pH-dependent; activity is expressed to a greater degree at lower pH levels. This, this potentially antiarrhythmic mechanism is activated by conditions of ischemia. Bepridil's blockade of outward potassium currents and its inhibition of sodium-calcium exchange increase action potential duration and ventricular refractoriness, prolong the QT interval, and form the basis for a class III antiarrhythmic mechanism. Because hypokalemia also prolongs the QT interval, the addition of bepridil in the presence of hypokalemia can lead to excessive prolongation. Bepridil both increases myocardial oxygen supply through coronary vasodilation and decreases myocardial oxygen demand through mild heart rate and afterload reduction, and shows potential antiarrhythmic activity through class IB, III, and IV mechanisms.(ABSTRACT TRUNCATED AT 250 WORDS)

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