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Serotonin neuronal release from dorsal hippocampus following electrical stimulation of the dorsal and median raphé nuclei in conscious rats

Serotonin neuronal release from dorsal hippocampus following electrical stimulation of the dorsal... We have studied 5‐hydroxytryptamine (5‐HT) release in the hippocampal formation following electrical stimulation of the dorsal and median raphé nuclei in the behaving rat. The primary finding in this study is a decrease in neuronal release of serotonin in the dorsal hippocampal formation following electrical stimulation of either the dorsal or median raphé nucleus in conscious rats. At no time did electrical stimulation of either raphé nucleus result in behavioral, including vigilance state, changes. The amount of 5‐HT released was found to be frequency dependent with higher frequencies (20 Hz) producing larger decreases in release of 5‐HT. However, the pattern of release differs between the two raphé nuclei. Extracellular levels of 5‐HT decrease during stimulation of the dorsal raphé, whereas levels decrease only following cessation of stimulation of the median raphé nucleus. This may relate to the patterns of innervation of the dorsal hippocampal formation by these two midbrain raphé nuclei and also may reflect an inhibition of median raphé cell firing during stimulation of the dorsal raphé. Electrical stimulation of the dorsal raphé in anesthetized animals resulted in an enhanced release of 5‐HT. The suppression of 5‐HT release in the dorsal hippocampal formation in behaving animals was long‐lasting (over 2 h), suggesting that the control mechanisms that regulate 5‐HT release operate over a long time‐course. This difference in release between non‐anesthetized and anesthetized animals may relate to anesthesia blocking long‐ and/or short‐loop serotonin recurrent axonal collaterals negatively feeding back onto 5‐HT1A and 5‐HT1D somatodendritic autoreceptors on raphé neurons. Further, the anesthetized animal has diminished monoaminergic “gating” influences on the hippocampal formation, whereas the behaving animal is more complex with behavioral (vigilance) states associated with different patterns of gating of information flow through the hippocampal formation. Hippocampus 1998;8:262–273. © 1998 Wiley‐Liss, Inc. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Hippocampus Wiley

Serotonin neuronal release from dorsal hippocampus following electrical stimulation of the dorsal and median raphé nuclei in conscious rats

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References (54)

Publisher
Wiley
Copyright
Copyright © 1998 Wiley Subscription Services
ISSN
1050-9631
eISSN
1098-1063
DOI
10.1002/(SICI)1098-1063(1998)8:3<262::AID-HIPO8>3.0.CO;2-L
Publisher site
See Article on Publisher Site

Abstract

We have studied 5‐hydroxytryptamine (5‐HT) release in the hippocampal formation following electrical stimulation of the dorsal and median raphé nuclei in the behaving rat. The primary finding in this study is a decrease in neuronal release of serotonin in the dorsal hippocampal formation following electrical stimulation of either the dorsal or median raphé nucleus in conscious rats. At no time did electrical stimulation of either raphé nucleus result in behavioral, including vigilance state, changes. The amount of 5‐HT released was found to be frequency dependent with higher frequencies (20 Hz) producing larger decreases in release of 5‐HT. However, the pattern of release differs between the two raphé nuclei. Extracellular levels of 5‐HT decrease during stimulation of the dorsal raphé, whereas levels decrease only following cessation of stimulation of the median raphé nucleus. This may relate to the patterns of innervation of the dorsal hippocampal formation by these two midbrain raphé nuclei and also may reflect an inhibition of median raphé cell firing during stimulation of the dorsal raphé. Electrical stimulation of the dorsal raphé in anesthetized animals resulted in an enhanced release of 5‐HT. The suppression of 5‐HT release in the dorsal hippocampal formation in behaving animals was long‐lasting (over 2 h), suggesting that the control mechanisms that regulate 5‐HT release operate over a long time‐course. This difference in release between non‐anesthetized and anesthetized animals may relate to anesthesia blocking long‐ and/or short‐loop serotonin recurrent axonal collaterals negatively feeding back onto 5‐HT1A and 5‐HT1D somatodendritic autoreceptors on raphé neurons. Further, the anesthetized animal has diminished monoaminergic “gating” influences on the hippocampal formation, whereas the behaving animal is more complex with behavioral (vigilance) states associated with different patterns of gating of information flow through the hippocampal formation. Hippocampus 1998;8:262–273. © 1998 Wiley‐Liss, Inc.

Journal

HippocampusWiley

Published: Jan 1, 1998

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