Recent studies have demonstrated that the botulinum neurotoxins inhibit the release of acetylcholine, glutamate, GABA, and glycine in central nerve system (CNS) neurons. The Na+ current (INa) is of major interest because it acts as the trigger for many cellular functions such as transmission, secretion, contraction, and sensation. Thus, these observations raise the possibility that A type neurotoxin might also alter the INa of neuronal excitable membrane. To test our idea, we examined the effects of A type neurotoxins on INa of central and peripheral neurons. The neurotoxins in femtomolar to picomolar concentrations produced substantial decreases of the neuronal INa, but interestingly the current inhibition was saturated at about maximum 50% level of control INa. The inhibitory pattern in the concentration-response curve for the neurotoxins differed from tetrodotoxin (TTX), local anesthetic, and antiepileptic drugs that completely inhibited INa in a concentration-dependent manner. We concluded that A type neurotoxins inhibited membrane Na+-channel activity in CNS neurons and that INa of both TTX-sensitive and-insensitive peripheral dorsal ganglion cells were also inhibited similarly to a maximum 40% of the control by the neurotoxins. The results suggest evidently that A2NTX could be also used as a powerful drug in treating epilepsy and several types of pain.
Keywords: A2 type neurotoxin (A2NTX); Na(+) channel; botulinum toxin; dorsal root ganglion (DRG) neuron; hippocampal CA1 neuron.
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