Activation of the gut-brain axis by dietary glutamate and physiologic significance in energy homeostasis.

@article{Kondoh2009ActivationOT,
  title={Activation of the gut-brain axis by dietary glutamate and physiologic significance in energy homeostasis.},
  author={Takashi Kondoh and Hruda Nanda Mallick and Kunio Torii},
  journal={The American journal of clinical nutrition},
  year={2009},
  volume={90 3},
  pages={
          832S-837S
        }
}
l-Glutamate is a multifunctional amino acid involved in taste perception, intermediary metabolism, and excitatory neurotransmission. In addition, recent studies have uncovered new roles for l-glutamate in gut-brain axis activation and energy homeostasis. l-Glutamate receptors and their cellular transduction molecules have recently been identified in gut epithelial cells. Stimulation of such l-glutamate receptors by luminal l-glutamate activates vagal afferent nerve fibers and then parts of the… 
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The physiologic significance of glutamate as an oxidative fuel and its potential role in gastric function during infancy are discussed and studies suggest that at high dietary intakes, free glutamate may be absorbed by the stomach as well as the small intestine, thus implicating the gastric mucosa in the metabolism of dietary glutamate.
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Ingestion of protein activates satiety pathways in the arcuate nucleus, which is characterized by an up- regulation of the melanocortin pathway (alpha-melanocyte-stimulating, hormone-containing neurons) and a down-regulation of the neuropeptide Y pathway.
Can dietary supplementation of monosodium glutamate improve the health of the elderly?
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The evidence linking the utility of MSG supplementation to the improvement of nutrition in elderly and hospitalized patients is examined and the physiologic roles of dietary l-glutamate in relation to alimentation are reviewed.
Metabolic fate and function of dietary glutamate in the gut.
TLDR
The physiologic significance of glutamate as an oxidative fuel and its potential role in gastric function during infancy are discussed and studies suggest that at high dietary intakes, free glutamate may be absorbed by the stomach as well as the small intestine, thus implicating the gastric mucosa in the metabolism of dietary glutamate.
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Regulation of glutamate metabolism and insulin secretion by glutamate dehydrogenase in hypoglycemic children.
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  • Biology, Medicine
    The American journal of clinical nutrition
  • 2009
TLDR
The novel hyperinsulinism-hyperammonemia syndrome indicates that GDH-catalyzed glutamate metabolism plays important roles in 3 tissues: in beta cells, the regulation of amino acid-stimulated insulin secretion; in hepatocytes, the modulation of amino acids catabolism and ammoniagenesis; and in brain neurons, the maintenance of glutamate neurotransmitter concentrations.
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