Journal ArticleDOI
Stress-induced alterations in metabolism of gamma-aminobutyric acid in rat brain.
TLDR
The results suggest that central GABA system may respond to the input of painful stimuli resulting from the application of a severe physical and psychological stressor, in addition to the well‐known functional alterations in catecholamine neurons.Abstract:
The effect of a stressful manipulation on the metabolism of gamma-aminobutyric acid (GABA) in the rat brain was studied. Application of an immobilized stress to animals induced a significant increase in the striatal and hypothalamic GABA contents without affecting those in other central structures examined. It was also found that the increase in striatal GABA level preceded that in the hypothalamus. This increase in steady-state levels of GABA in the striatum and hypothalamus disappeared at 12 h after the termination of the application of stress for 3 h, which exhibited a maximal stimulatory action on the GABA contents in both central areas. The activity of L-glutamic acid decarboxylase was found to be significantly elevated in the striatum and hypothalamus following the stress application with a concomitant decrease in the content of L-glutamic acid, which is converted to GABA by the catalytic action of the latter enzyme. The in vivo turnover of GABA in the brain was estimated by taking advantages of the postmortem accumulation of GABA following decapitation and of the selective inhibitory action of a low dose of aminooxyacetic acid on the GABA degrading system, respectively. Analysis using these two different methods revealed that the cerebral turnover of GABA in vivo was not significantly altered under stressful situations despite of the increase in its steady-state level. These results suggest that central GABA system may respond to the input of painful stimuli resulting from the application of a severe physical and psychological stressor, in addition to the well-known functional alterations in catecholamine neurons. The functional significance of these alterations in the central GABA neurons is also discussed.read more
Citations
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Restraint stress in biomedical research: A review
William P. Paré,Gary B. Glavin +1 more
TL;DR: The purpose of this review is to present a summary of the methods for, the parameters of, and known drug effects on, restraint-induced pathology.
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Amino acid analysis demonstrates that increased plasma free tryptophan causes the increase of brain tryptophan during exercise in the rat
TL;DR: The results indicate that increased plasma free TRP was specifically responsible for the increase of brain TRP after 2 h of exercise.
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A unifying hypothesis of Alzheimer's disease. IV. Causation and sequence of events.
TL;DR: Cumulative evidence suggests that the brain in aging and AD actively adapts to the progressive fuel deprivation and suggests that senile plaques are the dump rather than the driving force of AD.
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Effect of physical exercise on kindling development
TL;DR: It is suggested that chronic physical exercise inhibits development of amygdala kindling in rats because of the higher number of stimulations required for the chronic exercise group when compared to the acute exercise group and the control group.
References
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Regional studies of catecholamines in the rat brain. I. The disposition of [3H]norepinephrine, [3H]dopamine and [3H]dopa in various regions of the brain.
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Postsynaptic supersensitivity after 6-hydroxy-dopamine induced degeneration of the nigro-striatal dopamine system.
TL;DR: In this article, the effect of L-DOPA and the dopamine receptor stimulating drug apomorphine was studied in rats after unilateral degeneration of the nigrostriatal DA system by intracerebral injection of 6-hydroxydopamine.
Journal ArticleDOI
Demonstration and mapping out of nigro-neostriatal dopamine neurons
TL;DR: The data give strong evidence for the existence of nigro-neostriatal dopamine neurons, which probably contain most or all of the dopamine present in the neostriatum.
Journal ArticleDOI
Stress-induced parallel changes in central opioid levels and pain responsiveness in the rat.
TL;DR: It is reported that inescapable acute stress causes a significant increase in levels of opioid peptides with a concurrent decrease in pain responsiveness in the rat, and both the biochemical and behavioural changes are “reversed” by repeated exposure to stress.