AI Article Synopsis
- Glutamic acid decarboxylase (GAD) is an enzyme that converts glutamic acid (Glu), an excitatory neurotransmitter, into GABA, the main inhibitory neurotransmitter, helping to maintain balance in the nervous system.
- The study found varying concentrations of GAD in different motivational brain structures in rabbits, with the highest levels in the hypothalamus, suggesting GAD's significant role in stress response.
- Results indicated that changes in GAD concentration were more influenced by blocking glutamate receptors than by stress, highlighting the need for further research on the Glu-GAD-GABA system in stress modulation and homeostasis.
Article Abstract
Glutamic acid decarboxylase (GAD) is an enzyme that catalyses the formation of γ-aminobutyric acid (GABA), the most important inhibitory neurotransmitter, from glutamic acid (Glu), which is considered the most important excitatory transmitter in the central and peripheral nervous systems. GAD is a key enzyme that provides a balance between Glu and GABA concentration. Hence, it can be assumed that if the GAD executes the synthesis of GABA from Glu, it is important in the stress response, and thus also in triggering the emotional states of the body that accompany stress. The aim of the study was to investigate the concentration of the GAD in motivational structures in the brain of the rabbit () under altered homeostatic conditions caused by stress and variable availability of Glu. Summarising, the experimental results clearly showed variable concentrations of GAD in the motivational structures of the rabbit brain. The highest concentration of GAD was found in the hypothalamus, which suggests a strong effect of Glu and GABA on the activity of this brain structure. The GAD concentrations in individual experimental groups depended to a greater extent on blocking the activity of glutamate receptors than on the effects of a single stress exposure. The results obtained clearly support the possibility that a rapid change in the concentration of GAD could shift bodily responses to quickly achieve homeostasis, especially in this species. Further studies are necessary to reveal the role of the Glu-GAD-GABA system in the modulation of stress situations as well as in body homeostasis.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7915518 | PMC |
| http://dx.doi.org/10.3390/ani11020455 | DOI Listing |
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