Ionic Mechanism of Cholinergic inhibition in Molluscan Neurons
- 23 June 1967
- journal article
- research article
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 156 (3782), 1595-1596
- https://doi.org/10.1126/science.156.3782.1595
Abstract
Acetylcholine, the inhibitory transmitter to the so-called H-neurons of molluscs, produces its effect by increasing the permeability of the subsynaptic membrane to chloride ions. The change in permeability gives rise to a net influx of this anion, which hyperpolarizes the neuron. The presence of an outward pump of chloride ions is postulated to account for the required electrochemical gradient. The participation of potassium ions in this inhibitory phenomenon was not detected.This publication has 14 references indexed in Scilit:
- Microelectrode determination of the intracellular chloride concentration in nerve cellsLife Sciences, 1966
- A saline solution for pulmonate molluscsLife Sciences, 1964
- The effect of anion injection and changes in the external potassium and chloride concentration on the reversal potentials of the IPSP and acetylcholineComparative Biochemistry and Physiology, 1964
- ‘Desensitization’ of Cholinergic Receptors by Acetylcholine in Molluscan Central NeuronesNature, 1963
- Acetylcholine and the spontaneous inhibitory post synaptic potentials in the snail neuroneComparative Biochemistry and Physiology, 1963
- Cholinergic Transmission Mechanisms for both Excitation and Inhibition in Molluscan Central SynapsesNature, 1961
- Membrane changes of Onchidium nerve cell in potassium‐rich mediaThe Journal of Physiology, 1961
- Membrane permeability change during inhibitory transmitter action in crustacean muscleThe Journal of Physiology, 1958
- A study of the ‘desensitization’ produced by acetylcholine at the motor end‐plateThe Journal of Physiology, 1957
- On the localization of acetylcholine receptorsThe Journal of Physiology, 1955