The mode of action of phenylhydrazine hydrochloride on the locust neuromuscular system

Abstract

The action of the carbonyl reagent phenylhydrazine hydrochloride (Phen. HCl) on locust excitatory neuromuscular systems was studied by examining the effects of this compound on the mechanical and electrical properties of the retractor unguis and extensor tibiae muscles of the locust Schistocerca gregaria. Low concentrations of Phen. HCl (10 −9 w/v to 2·5 × 10 −5 w/v) potentiated the muscle contractions and the excitatory post-synaptic potential (EPSP), the optimum concentration being about 10 −5 w/v. 10 −8 w/v Phen. HCl increased miniature EPSP frequency, but this increase became less pronounced as the concentration was raised, and no increase at all was observed at 10 −5 w/v. There was no change in miniature EPSP amplitude at any concentration. Higher concentrations of Phen. HCl (> 2·5 × 10 −6 w/v) depressed the neurally evoked contraction, the EPSP, and the response of the muscle to iontophoretically applied l-glutamate. A gradual increase in muscle input conductance was observed on perfusion with these high concentrations of Phen. HCl. The presence of magnesium in the bathing fluid (15 m-moles/l.) reduced the effectiveness of Phen. HCl in potentiating the EPSP and delayed or reduced the increase in input conductance observed on perfusion with high concentrations of Phen. HCl. The results indicate that low concentrations of Phen. HCl act presynaptically, possibly by depolarizing the excitatory nerve terminals. Higher concentrations may act directly on the post-synaptic glutamate receptors.