Differential effect of perhydrohistrionicotoxin on ‘intrinsic’ and ‘extrinsic’ end-plate responses.

Abstract

At rat and frog neuromuscular junctions, perhydrohistrionicotoxin (H12-HTX), at concentrations below 10-6 M, blocked end-plate currents and potentials generated by ionophoretic application of ACh [acetylcholine] (extrinsic responses) more effectively than end-plate currents and potentials generated by neurotransmitter secreted from the motor nerve (intrinsic responses). (+)-Tubocurarine affected both extrinsic and intrinsic responses in a parallel manner. There was no change in the time course and little or no change in the amplitude of intrinsic end-plate currents when extrinsic currents were depressed by H12-HTX nor was there any change in the conductance or lifetime of channels activated by applied ACh. The depressant effect of H12-HTX on extrinsic responses persisted when carbachol was used as the agonist and when acetylcholinesterase was inhibited with DFP. Large end-plate currents elicited by nerve stimulation that presumably activate the whole end-plate area were not depressed by H12-HTX to the same degree as extrinsic end-plate currents generated by ionophoresis of ACh at the same end-plate. Brief (50 .mu.s) pulses of ACh produced brief end-plate potentials which were depressed by concentrations of H12-HTX that had little or no effect on miniature end-plate potentials. Extrinsic responses to ACh at extrajunctional regions of denervated fibers were depressed by low concentrations of H12-HTX. The differential effects of H12-HTX on intrinsic and extrinsic end-plate responses could be due to the existence of 2 populations of receptor-channel complexes or to protection of local receptor-channel complexes from the toxin by a substance secreted from motor nerve terminals.