| Title : Chemical modulation of ephaptic activation of CA3 hippocampal pyramids - Dalkara_1986_Neurosci_17_361 |
| Author(s) : Dalkara T , Krnjevic K , Ropert N , Yim CY |
| Ref : Neuroscience , 17 :361 , 1986 |
|
Abstract :
In rats under urethane anaesthesia, antidromic population spikes were evoked in CA3 pyramidal layer by fimbrial/commissural stimulation at a very low frequency (approximately 0.5 Hz). Submaximal population spikes--between 20 and 90% of maximum--were enhanced by 8-38% by applications of acetylcholine and bicuculline, or by medial septal stimulation. Noradrenaline had a less pronounced and regular facilitatory action, whereas gamma-aminobutyrate and glutamate only depressed population spikes. Maximal enhancement by acetylcholine or bicuculline was observed when the antidromic population spike was initially at 38-53% of maximum amplitude. A simple explanation of these results is that acetylcholine and bicuculline, by raising their excitability, facilitate the excitation of non-invaded pyramidal cells by antidromic field potentials. They are fully in keeping with previous intracellular observations on ephaptic interactions between CA3 neurons, and provide a further illustration, in situ, of the importance of increased excitability and disinhibition--whether caused by drugs or synaptic action--in promoting synchronized excitation by ephaptic currents. |
| PubMedSearch : Dalkara_1986_Neurosci_17_361 |
| PubMedID: 2871519 |
Dalkara T, Krnjevic K, Ropert N, Yim CY (1986)
Chemical modulation of ephaptic activation of CA3 hippocampal pyramids
Neuroscience
17 :361
Dalkara T, Krnjevic K, Ropert N, Yim CY (1986)
Neuroscience
17 :361