A new class of neurotoxin from wasp venom slows inactivation of sodium current
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Data
2000-06-01
Autores
Sahara, Y.
Gotoh, M.
Konno, K.
Miwa, A.
Tsubokawa, H.
Robinson, HPC
Kawai, N.
Título da Revista
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Editor
Blackwell Science
Resumo
The effects of alpha-pompilidotoxin (alpha-PMTX), a new neurotoxin isolated from the venom of a solitary wasp, were studied on the neuromuscular synapses in lobster walking leg and the rat trigeminal ganglion (TG) neurons. Paired intracellular recordings from the presynaptic axon terminals and the innervating lobster leg muscles revealed that alpha-PMTX induced long bursts of action potentials in the presynaptic axon, which resulted in facilitated excitatory and inhibitory synaptic transmission. The action or alpha-PMTX was distinct from that of other known facilitatory presynaptic toxins, including sea anemone toxins and alpha-scorpion toxins, which modify the fast inactivation of Na+ current. We further characterized the action of alpha-PMTX on Na+ channels by whole-cell recordings from rat trigeminal neurons. We found that alpha-PMTX stowed the Na+ channels inactivation process without changing the peak current-voltage relationship or the activation time course of tetrodotoxin (TTX)-sensitive Na+ currents, and that alpha-PMTX had voltage-dependent effects on the rate of recovery from Na+ current inactivation and deactivating tail currents. The results suggest that alpha-PMTX slows or blocks conformational changes required for fast inactivation of the Na+ channels on the extracellular surface. The simple structure of alpha-PMTX, consisting of 13 amino acids, would be advantageous for understanding the functional architecture of Na+ channel protein.
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Palavras-chave
inactivation, lobster neuromuscular synapse, sodium channel, trigeminal ganglion, wasp toxin
Como citar
European Journal of Neuroscience. Oxford: Blackwell Science Ltd, v. 12, n. 6, p. 1961-1970, 2000.