Effects of some antianginal and vasodilating drugs on sodium influx and on the binding of 3H-batrachotoxinin-A 20-alpha-benzoate and 3H-tetracaine.

The effects of antianginal drugs, especially arylalkylamines and structurally related derivatives, on 3H-batrachotoxinin-A 20-alpha-benzoate (3H-BTX-B) binding and on 3H-tetracaine binding were studied on rat synaptosomal and heart membrane preparations. The effect of the same drugs on the Na+ influx induced by protoveratrine B was studied on the rat synaptosomal preparation. Antianginal drugs tested inhibited 3H-BTX-B binding in rat synaptosomes, arylalkylamine derivatives being the most potent: IC50 values were 27 nM for flunarizine, 32 nM for prenylamine, 79 nM for cinnarizine. Similarly, these drugs were the most potent when tested in cardiac membrane preparations. All the drugs tested were very weak inhibitors of 3H-tetracaine binding (IC50 ranging from 0.01 mM to more than 1 mM) except for guanabenz, which was more potent (IC50:0.3 microM on the synaptosomal preparation). The various drugs tested inhibited the 22Na+ influx induced by protoveratrine B, with IC50 values ranging from 15 microM (prenylamine) to 110 microM (verapamil), with the exception of nifedipine which had an IC50 of more than 0.1 mM. The inhibition of 22Na+ influx correlated well with the inhibition of 3H-BTX-B binding. These findings suggest that some antianginal drugs, especially the arylalkylamines may have, in addition to their calcium antagonist activity, direct effects on sodium channels.