BACKGROUND AND PURPOSE: This work was aimed at comparing and analysing the effects and mechanisms of action of the quaternary ammonium cholinesterase inhibitors (QChEIs) BW284c51, decamethonium and edrophonium, on nicotinic ACh receptor (nAChR) function. EXPERIMENTAL APPROACH: nAChRs purified from Torpedo electroplax were transplanted to oocytes and currents elicited by ACh (I(ACh)) either alone or in presence of these QChEIs were recorded. KEY RESULTS: None of the QChEIs, by itself, elicited changes in membrane conductance; however, when co-applied with ACh, all of them decreased I(ACh) in a concentration-dependent way. The mechanisms of nAChR inhibition were different for these QChEIs. BW284c51 blockade was non-competitive and voltage-dependent, although it also affected the n(H) of the dose-response curve. By contrast, decamethonium and edrophonium inhibition, at -60 mV, was apparently competitive and did not modify either desensitisation or n(H). Decamethonium effects were voltage-independent and washed out slowly after its removal; by contrast, edrophonium blockade had strong voltage dependence and its effects disappeared quickly after its withdrawal. Analysis of the voltage-dependent blockade indicated that BW284c51 bound to a shallow site into the channel pore, whereas edrophonium bound to a deeper locus. Accordingly, additive inhibitory effects on I(ACh) were found among any pairs of these QChEIs. CONCLUSIONS AND IMPLICATIONS: The tested QChEIs bound to the nAChR at several and different loci, which might account for their complex inhibitory behaviour, acting both as allosteric effectors and, in the case of BW284c51 and edrophonium, as open channel blockers.
BACKGROUND AND PURPOSE: This work was aimed at comparing and analysing the effects and mechanisms of action of the quaternary ammonium cholinesterase inhibitors (QChEIs) BW284c51, decamethonium and edrophonium, on nicotinic ACh receptor (nAChR) function. EXPERIMENTAL APPROACH: nAChRs purified from Torpedo electroplax were transplanted to oocytes and currents elicited by ACh (I(ACh)) either alone or in presence of these QChEIs were recorded. KEY RESULTS: None of the QChEIs, by itself, elicited changes in membrane conductance; however, when co-applied with ACh, all of them decreased I(ACh) in a concentration-dependent way. The mechanisms of nAChR inhibition were different for these QChEIs. BW284c51 blockade was non-competitive and voltage-dependent, although it also affected the n(H) of the dose-response curve. By contrast, decamethonium and edrophonium inhibition, at -60 mV, was apparently competitive and did not modify either desensitisation or n(H). Decamethonium effects were voltage-independent and washed out slowly after its removal; by contrast, edrophonium blockade had strong voltage dependence and its effects disappeared quickly after its withdrawal. Analysis of the voltage-dependent blockade indicated that BW284c51 bound to a shallow site into the channel pore, whereas edrophonium bound to a deeper locus. Accordingly, additive inhibitory effects on I(ACh) were found among any pairs of these QChEIs. CONCLUSIONS AND IMPLICATIONS: The tested QChEIs bound to the nAChR at several and different loci, which might account for their complex inhibitory behaviour, acting both as allosteric effectors and, in the case of BW284c51 and edrophonium, as open channel blockers.
Authors: Tim J Brier; Ian R Mellor; Denis B Tikhonov; Ioana Neagoe; Zuoyi Shao; Matt J Brierley; Kristian Strømgaard; Jerzy W Jaroszewski; Povl Krogsgaard-Larsen; Peter N R Usherwood Journal: Mol Pharmacol Date: 2003-10 Impact factor: 4.436
Authors: Jesusa Capera; Mireia Pérez-Verdaguer; Roberta Peruzzo; María Navarro-Pérez; Juan Martínez-Pinna; Armando Alberola-Die; Andrés Morales; Luigi Leanza; Ildiko Szabó; Antonio Felipe Journal: Elife Date: 2021-07-01 Impact factor: 8.140