1. Academic Validation
  2. Class I antiarrhythmics inhibit Na+ absorption and Cl- secretion in rabbit descending colon epithelium

Class I antiarrhythmics inhibit Na+ absorption and Cl- secretion in rabbit descending colon epithelium

  • Naunyn Schmiedebergs Arch Pharmacol. 2005 Jun;371(6):492-9. doi: 10.1007/s00210-005-1072-4.
Herbert Plass 1 Markus Charisius Wolfgang Wyskovsky Florian Amor Klaus Turnheim Hubert Wiener
Affiliations

Affiliation

  • 1 Besondere Einrichtung für medizinische Aus- und Weiterbildung, Medizinische Universität Wien, Spitalgasse 23, 1090 Vienna, Austria. herbert.plass@meduniwien.ac.at
Abstract

To clarify the mechanism of the diarrhea associated with the clinical use of antiarrhythmic drugs we assessed the effects of these agents on transepithelial Na+ absorption and Cl- secretion, on basolateral K+ conductance, and on the properties of single basolateral K+ channels of rabbit colon epithelium. Quinidine and propafenone, both at 10 microM, inhibited Na+ absorption by 27 and 38% respectively, compared with 50% with 5 mM Ba2+. The other tested class I antiarrhythmics disopyramide, mexiletine, lidocaine, and flecainide decreased Na+ current by 9-13%. Procainamide and the class III antiarrhythmics N-acetylprocainamide, sotalol, ibutilide, and amiodarone were no or were very weak inhibitors of Na+ absorption. Cl- secretion, stimulated with the adenosine analogue NECA (5'-N-ethylcarboxamide-adenosine), was reduced by 54% with quinidine and by 29% with propafenone compared with 100% with Ba2+. Mexiletine, lidocaine, and flecainide inhibited Cl- secretion by 10-23%, whereas the class III antiarrhythmics were no or were weak inhibitors. Those antiarrhythmics that inhibited Na+ and Cl- transport also reduced basolateral K+ conductance, determined in amphotericin B permeabilized epithelia. The activity of the high-conductance, Ca2+-activated, voltage-dependent K+ (BK(CA)) channel, which is primarily responsible for basolateral K+ recycling during Na+ absorption, was inhibited by 10-30 microM quinidine or propafenone in the form of a rapidly dissociating block. Mexiletine and flecainide inhibited the single channel conductance at higher concentrations; disopyramide, lidocaine, and procainamide were ineffective. In conclusion, the present evidence suggests that the diarrhea caused by class I antiarrhythmic drugs such as quinidine and propafenone is a result of a reduction in basolateral K+ conductance and inhibition of BK(CA) channels, thereby impeding transepithelial Na+ and water absorption.

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