Acetylcholine modulates two types of presynaptic potassium channels in vertebrate motor nerve terminals

E. Hevron; G. David; A. Arnon; Y. Yaari

doi:10.1016/0304-3940(86)90624-5

Acetylcholine modulates two types of presynaptic potassium channels in vertebrate motor nerve terminals

E. Hevron, G. David, A. Arnon, Y. Yaari^*

^*Corresponding author for this work

Institute for Medical Research Israel-Canada (IMRIC)

Research output: Contribution to journal › Article › peer-review

35 Scopus citations

Abstract

Using external microelectrodes to record local circuit currents from preterminal motor nerve axons, two distinct populations of potassium (K) channels were identified in frog motor nerve terminals: delayed rectifier and calcium-activated K channels. Both are sensitive to the transmitter acetylcholine (ACh) which, when externally applied, blocks them in concentrations in the millimolar range. As this action also is not prevented by nicotinic and muscarinic antagonists, it probably is not mediated by classical cholinergic receptors. This cholinergic sensitivity of presynaptic K channels may account for the hyperexcitability of motor nerve terminals manifested when ACh accumulates in the junctional cleft.

Original language	English
Pages (from-to)	87-92
Number of pages	6
Journal	Neuroscience Letters
Volume	72
Issue number	1
DOIs	https://doi.org/10.1016/0304-3940(86)90624-5
State	Published - 3 Dec 1986

Keywords

Acetylcholine
Calcium-activated
Delayed rectifier
Frog
Motor nerve terminal
Potassium channel
Quaternary ammonium

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10.1016/0304-3940(86)90624-5

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abstract = "Using external microelectrodes to record local circuit currents from preterminal motor nerve axons, two distinct populations of potassium (K) channels were identified in frog motor nerve terminals: delayed rectifier and calcium-activated K channels. Both are sensitive to the transmitter acetylcholine (ACh) which, when externally applied, blocks them in concentrations in the millimolar range. As this action also is not prevented by nicotinic and muscarinic antagonists, it probably is not mediated by classical cholinergic receptors. This cholinergic sensitivity of presynaptic K channels may account for the hyperexcitability of motor nerve terminals manifested when ACh accumulates in the junctional cleft.",

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AU - Arnon, A.

AU - Yaari, Y.

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AB - Using external microelectrodes to record local circuit currents from preterminal motor nerve axons, two distinct populations of potassium (K) channels were identified in frog motor nerve terminals: delayed rectifier and calcium-activated K channels. Both are sensitive to the transmitter acetylcholine (ACh) which, when externally applied, blocks them in concentrations in the millimolar range. As this action also is not prevented by nicotinic and muscarinic antagonists, it probably is not mediated by classical cholinergic receptors. This cholinergic sensitivity of presynaptic K channels may account for the hyperexcitability of motor nerve terminals manifested when ACh accumulates in the junctional cleft.

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KW - Delayed rectifier

KW - Frog

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KW - Potassium channel

KW - Quaternary ammonium

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Acetylcholine modulates two types of presynaptic potassium channels in vertebrate motor nerve terminals

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