Mechanism of long-lasting block of ganglion nicotinic receptors by mono-ammonium compounds with long aliphatic chain.

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Kurenny DE, Selyanko AA, Derkach VA, Gmiro VE, Skok VI

Mechanism of long-lasting block of ganglion nicotinic receptors by mono-ammonium compounds with long aliphatic chain.

J Auton Nerv Syst. 1994 Aug;48(3):231-40.

PubMed ID

7963258 [ View in PubMed

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Abstract

The effect of long-chain mono-ammonium compounds (long-chain MACs), t-butyldecylammonium (IEM-1078), 2,2,6,6-tetramethyldecylpiperidine (IEM-1559), and diisopropyldecylammonium (IEM-1194), on nicotinic acetylcholine receptors (nAChRs) was studied in sympathetic ganglion neurons using the patch clamp method. Long-chain MACs (1-10 microM) strongly inhibited acetylcholine (ACh)-induced current (ACh-current); the block persisted for hours after washing the drugs out. Short-chain MACs had a much weaker and completely reversible blocking effect. Suppression of ACh-current by MACs was dose- and voltage-dependent; it was absent at low ACh doses or at potentials > or = 60 mV and increased with higher ACh doses or hyperpolarization. The second of two ACh-currents induced by paired application of ACh was inhibited by long-chain MACs more strongly than the first. This use-dependent block also persisted for hours after washing the drugs out. Additional inhibition of the second ACh-current was reduced by lengthening the time interval between ACh applications in the pair. Time constants of the recovery of the second ACh-current in the presence and after washing out of long-chain MACs were similar, ranging from 45 to 140 s at -50 mV for different long-chain MACs, and decreased with de- or hyperpolarization. The use-dependent block produced by long-chain MACs could be prevented by another long-chain MAC with a small ammonium head (IEM-1195, 75-100 microM) or trimethaphan (30 microM), a competitive antagonist of ACh in ganglia. Neither the short-chain MAC (IEM-1405, 100 microM) nor ACh (100 microM) could exert this protective effect. Long-chain MACs did not exert any use-, dose- or voltage-dependent suppression of ACh-current when applied intracellularly. Single-channel conductance was not affected by IEM-1194 (3-10 microM). We suggest that inhibition of ACh-current by long-chain MACs is accounted for by (i) a long-lasting, apparently irreversible, binding of the drug near the channel of nAChR via its long aliphatic chain and (ii) a slow reversible block of the nAChR channel with the MAC's ammonium head.

DrugBank Data that Cites this Article

Drug Targets

Drug	Target	Kind	Organism	Pharmacological Action	Actions
Trimethaphan	Neuronal acetylcholine receptor subunit alpha-10	Protein	Humans	Yes	Antagonist	Details