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Interactions of gephyrotoxin with the acetylcholine receptor-ionic channel complex. I. Blockade of the ionic channel.

1984; American Society for Pharmacology and Experimental Therapeutics; Volume: 25; Issue: 3 Linguagem: Inglês

10.1016/s0026-895x(25)14980-8

1521-0111

Caden Souccar, Wamberto Antônio Varanda, John W. Daly, E X Albuquerque,

Nicotinic Acetylcholine Receptors Study

The novel tricyclic alkaloid, gephyrotoxin ( GyTX ), found in the skin secretions of the frog Dendrobates histrionicus , potentiates and blocks the indirectly elicited muscle twitch in a concentration-dependent manner. GyTX prolongs the falling phase of the muscle action potential and decreases delayed rectification, supporting the idea that the alkaloid blocks the voltage-sensitive potassium conductance of the electrically excitable membrane. The peak amplitude of the end-plate currents (EPC) and miniature end-plate currents ( MEPC ) were depressed, but no significant deviation from linearity relative to control was seen in the current-voltage relationship. The decay time constant of the EPC (tau EPC) was markedly shortened by GyTX , the effect being greater at 10 degrees than at 22 degrees. The relationship between the log of tau EPC and membrane potential disclosed a linear relationship at all concentrations tested, but a progressive loss of voltage sensitivity of tau EPC was seen when GyTX concentrations were increased. Also, the plot of 1/tau EPC against GyTX concentration revealed a linear relationship. The lack of voltage and time dependence suggests that GyTX has little effect on the ACh receptor-ionic channel complex in the closed conformation. Single-channel conductance studied by means of fluctuation analysis did not change after GyTX application, but the channel lifetime decreased by about 40% at clamp potentials of -105 mV and at a toxin concentration of 7.5 microM. Repetitive nerve stimulation led to a pronounced " rundown " in the EPCs which was frequency-dependent. These findings were taken as evidence that GyTX interacts with the acetylcholine receptor complex, causing a blockade of its channel mainly in the open conformation.