Bispyridinium compounds inhibit both muscle and neuronal nicotinic acetylcholine receptors in human cell lines
Bispyridinium compounds inhibit both muscle and neuronal nicotinic acetylcholine receptors in human cell lines
Standard treatment of poisoning by organophosphorus anticholinesterases uses atropine to reduce the muscarinic effects of acetylcholine accumulation and oximes to reactivate acetylcholinesterase (the effectiveness of which depends on the specific anticholinesterase), but does not directly address the nicotinic effects of poisoning. Bispyridinium molecules which act as noncompetitive antagonists at nicotinic acetylcholine receptors have been identified as promising compounds and one has been shown to improve survival following organophosphorus poisoning in guinea-pigs. Here, we have investigated the structural requirements for antagonism and compared inhibitory potency of these compounds at muscle and neuronal nicotinic receptors and acetylcholinesterase. A series of compounds was synthesised, in which the length of the polymethylene linker between the two pyridinium moieties was increased sequentially from one to ten carbon atoms. Their effects on nicotinic receptor-mediated calcium responses were tested in muscle-derived (CN21) and neuronal (SH-SY5Y) cells. Their ability to inhibit acetylcholinesterase activity was tested using human erythrocyte ghosts. In both cell lines, the nicotinic response was inhibited in a dose-dependent manner and the inhibitory potency of the compounds increased with greater linker length between the two pyridinium moieties, as did their inhibitory potency for human acetylcholinesterase activity in vitro. These results demonstrate that bispyridinium compounds inhibit both neuronal and muscle nicotinic receptors and that their potency depends on the length of the hydrocarbon chain linking the two pyridinium moieties. Knowledge of structure-activity relationships will aid the optimisation of molecular structures for therapeutic use against the nicotinic effects of organophosphorus poisoning.
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Ulrich, Henning
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Ring, Avi
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Strom, Bjorn Oddvar
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Turner, Simon R.
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Timperley, Christopher M.
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Bird, Michael
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Green, A. Christopher
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Worek, Franz
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Chad, John E.
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Tattersall, John E.H.
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14 August 2015
Ulrich, Henning
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Ring, Avi
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Strom, Bjorn Oddvar
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Turner, Simon R.
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Timperley, Christopher M.
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Bird, Michael
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Green, A. Christopher
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Worek, Franz
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Chad, John E.
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Tattersall, John E.H.
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Ulrich, Henning, Ring, Avi, Strom, Bjorn Oddvar, Turner, Simon R., Timperley, Christopher M., Bird, Michael, Green, A. Christopher, Worek, Franz, Chad, John E. and Tattersall, John E.H.
(2015)
Bispyridinium compounds inhibit both muscle and neuronal nicotinic acetylcholine receptors in human cell lines.
PLoS ONE, 10 (8), .
(doi:10.1371/journal.pone.0135811).
(PMID:26274808)
Abstract
Standard treatment of poisoning by organophosphorus anticholinesterases uses atropine to reduce the muscarinic effects of acetylcholine accumulation and oximes to reactivate acetylcholinesterase (the effectiveness of which depends on the specific anticholinesterase), but does not directly address the nicotinic effects of poisoning. Bispyridinium molecules which act as noncompetitive antagonists at nicotinic acetylcholine receptors have been identified as promising compounds and one has been shown to improve survival following organophosphorus poisoning in guinea-pigs. Here, we have investigated the structural requirements for antagonism and compared inhibitory potency of these compounds at muscle and neuronal nicotinic receptors and acetylcholinesterase. A series of compounds was synthesised, in which the length of the polymethylene linker between the two pyridinium moieties was increased sequentially from one to ten carbon atoms. Their effects on nicotinic receptor-mediated calcium responses were tested in muscle-derived (CN21) and neuronal (SH-SY5Y) cells. Their ability to inhibit acetylcholinesterase activity was tested using human erythrocyte ghosts. In both cell lines, the nicotinic response was inhibited in a dose-dependent manner and the inhibitory potency of the compounds increased with greater linker length between the two pyridinium moieties, as did their inhibitory potency for human acetylcholinesterase activity in vitro. These results demonstrate that bispyridinium compounds inhibit both neuronal and muscle nicotinic receptors and that their potency depends on the length of the hydrocarbon chain linking the two pyridinium moieties. Knowledge of structure-activity relationships will aid the optimisation of molecular structures for therapeutic use against the nicotinic effects of organophosphorus poisoning.
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Accepted/In Press date: 27 July 2015
Published date: 14 August 2015
Organisations:
Centre for Biological Sciences
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Local EPrints ID: 392628
URI: http://eprints.soton.ac.uk/id/eprint/392628
ISSN: 1932-6203
PURE UUID: 609e2980-cd67-463a-96dd-5c9d67f98bb8
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Date deposited: 14 Apr 2016 10:53
Last modified: 15 Mar 2024 02:35
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Contributors
Author:
Henning Ulrich
Author:
Avi Ring
Author:
Bjorn Oddvar Strom
Author:
Simon R. Turner
Author:
Christopher M. Timperley
Author:
Michael Bird
Author:
A. Christopher Green
Author:
Franz Worek
Author:
John E.H. Tattersall
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