A Novel Peptide Toxin fromTrimeresurus wagleriActs Pre‐ and Post‐Synaptically to Block Transmission at the Rat Neuromuscular Junction*

Abstract

The neuromuscular effects of a peptide toxin (peptide I) from venom ofTrimeresurus wagleriwere investigated using the rat extensor digitorum longus muscle/peroneal nerve preparation. Sub‐micromolar concentrations depressed endplate currents (EPCs) produced in response to nerve stimulation. Since quantal content of EPCs was not altered, it appears that the site of action is post‐synaptic. However, higher concentrations (1.4–2.9 μM) also inhibited spontaneous release of transmitter. Nerve stimulation in the presence of peptide I caused ‘rundown’ of EPC amplitude, evidence that the peptide acts pre‐synaptically to interfere with transmitter release. Recovery from this effect occurred within 3–5 min. of washing, but EPC amplitude took 20–30 min. to recover. The dual action of this peptide makes it unusual amongst naturally‐occurring toxins, and these data suggest that further investigation of the peptide (and its analogues) could yield new information about neurotransmitter release.