Physostigmine and acetylcholine differentially activate nicotinic receptor subpopulations in Locusta migratoria neurons

The effects of acetylcholine (ACh) and physostigmine (PHY) on thoracic ganglion neurons of Locusta migratoria were investigated using whole-cell and cell-attached voltage clamp. ACh activated whole-cell currents with variable amplitudes, time course and ion channel block between cells, suggesting differential expression of nicotinic acetylcholine receptor (nAChR) subtypes. This was supported by selective block of the peak of the currents by the α7-specific α-conotoxin ImI. PHY at 100 μM evoked smaller whole-cell currents with variable amplitudes and marginal desensitization. The PHY/ACh amplitude ratio varied between cells, and was positively related to the time constant of decay of the ACh response. EC 50 values for the peak amplitude of the ACh- and PHY-induced currents were 50 μM and 3 μM, respectively. Both agonists activated nAChR, indicated by equal voltage-dependence and reversal potentials and the same pharmacological properties of ACh and PHY responses. In addition, PHY and ACh induced ion channel block. Co-application and cross-desensitization experiments showed that ACh and PHY activate the same nAChR subpopulations. Both agonists activated nicotinic single channels with three conductance levels, which were equal for ACh and PHY, indicating activation of the same nAChR subtypes by both agonists. However, for all levels PHY displayed a lower open probability than ACh. Taken together, different whole-cell responses appear to originate from differential activation, desensitization and ion channel block by ACh and PHY of distinct nAChR populations.