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  • Title: Studies on cardioactive steroids. III. Characterization of different cardiac glycosides by their effects on contractility and rhythmicity at different extracellular potassium concentrations.
    Author: Haustein KO, Graumann G, Stephan B.
    Journal: Acta Biol Med Ger; 1975; 34(6):1065-73. PubMed ID: 1199622.
    Abstract:
    In the present paper, the naturally occurring glycosides digitoxin, gitoxin, 16-acetyl-gitoxin, digoxin, cymarol, ouabain, and proscillaridin, and the semi-synthetic 16-epi-gitoxin and 16-acetyl-16-epi-gitoxin are investigated as to their inotropic action and their effects on rhythmicity at isolated spontaneously beating atria of the guinea-pig heart in dependence on the variation of the potassium concentration of the nutritive fluid ([K+]0: 1.34, 2.68, and 5.36 mM resp.). The major results are as follows. 1. Effects of raising [K+]0 from 1.34 to 2.68 mM: The range of the inotropically effective concentrations as well as the size of the maximum inotropic action are more or less strongly improved with all glycosides. The glycoside concentrations required to get inotropic maximum had to be increased to a high degree with proscillaridin and digoxin. The mean arrhythmia percentage occurring at the inotropic maximum is either decreased (gitoxin, 16-epi-gitoxin, digoxin, proscillaridin), unchanged (digitoxin, 16-acetyl-16-epi-gitoxin) or even increased (16-acetyl-gitoxin, cymarol, ouabain). The inotropic value is improved to a high extent with gitoxin only. 2. Effect of raising [K+]0 from 2.68 to 5.36 mM: The range of the inotropically effective concentrations is extended (digitoxin and cymarol) or diminished (proscillaridin), but remains essentially unchanged with most glycosides. The size of the maximum inotropic effect is increased with digoxin, ouabain and 16-epi-gitoxin, but decreased significantly with digitoxin and proscillaridin. The glycoside concentrations required to produce the inotropic maximum are essentially unchanged with the exception of 16-epi-gitoxin, 16-acetyl-gitoxin and ouabain. The mean arrhythmia percentage at the maximum inotropic effect is dramatically reduced with digoxin, cymarol and proscillaridin. The inotropic value is improved with all glycosides except digitoxin. 3. Evaluation of the various glycosides: When judged on the basis of the range of inotropically effective concentrations, the maximum inotropic effect, the mean arrhythmia percentage at the inotropic maximum and the inotropic value, the best first three glycosides include 16-epi-gitoxin and digoxin. 16-Epi-gitoxin and its 16-acetate show that most favourable relationship between the effect on contractility and rhythmicity. The cause of the differential actions of the structurally-different glycosides on contractility and rhythmicity is hypothesized to be due to divergences in structure and/or conformation of the receptor areas of (Na+ + K+)-ATPase of contractile and excitable cells.
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