Abstract
An isolated ganglion preparation has been used to make recordings from an identified cockroach neuron in situ. We have shown that the magnitude of conductance increase of ligand-gated ion channels produced by agonists can be modulated by activation of muscarinic ACh receptors (mAChRs); currents through nicotinic ACh receptors (nAChRs) are suppressed, while GABA currents can be either enhanced or suppressed. mAChR activation causes a rise in [Ca 2+ ] 1 measured using the fluorescent Ca 2+ indicator fluo-3. This rise in [Ca 2+ ] 1 appears to trigger modulation of nicotinic ACh and GABA currents, since the effects of mAChR activation are mimicked by brief increases in [Ca 2+ ] 1 produced by flash photolysis of the Ca 2+ chelator nitr-5. These modulatory effects outlast the rise in [Ca2+]j evoked by mAChR activation or photolytic Ca 2+ release by 5—10 min. The prolongation by Li+ of the modulatory effects mediated by mAChRs suggests a possible involvement of the phosphoinositol pathway. These results indicate that mAChRs acting via intracellular messengers can exert a powerful modulatory influence upon nACh or GABA gated ion channels of neurons in which these receptors are co-localized.
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More From: Proceedings of the Royal Society of London. Series B: Biological Sciences
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