Akane Nakahata scite author profile

Akane Nakahata

3Publications

45Citation Statements Received

62Citation Statements Given

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Kyushu University

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Orally administrated dipeptide Ser-Tyr efficiently stimulates noradrenergic turnover in the mouse brain

Ichinose

Moriyasu

Nakahata

et al. 2015

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In this study, we examined the effect of orally administrated dipeptides containing Tyr (Y) on the metabolism of catecholamines in mouse brains. We found that among eight synthetic dipeptides whose sequences are present frequently in soy proteins, Ser-Tyr (SY), Ile-Tyr, and Tyr-Pro had the highest apparent permeability coefficients in monolayers of human intestinal epithelial Caco-2 cells. When administrated orally, SY markedly increased tyrosine content in the cerebral cortex compared to the vehicle control, Ile-Tyr, Tyr-Pro, and Y alone. The oral administration of SY more effectively increased 3-methoxy-4-hydroxyphenylethyleneglycol, the principal metabolite of noradrenaline, in the cerebral cortex and hippocampus than did Ile-Tyr, Tyr-Pro, or Y alone. Central noradrenergic turnover was also markedly stimulated by SY administration. These in vivo observations strongly suggest that SY is more potent in boosting central catecholamine transmission, particularly the noradrenergic system, than Y alone or other dipeptides that include Y.

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Soy peptide ingestion augments the synthesis and metabolism of noradrenaline in the mouse brain

Imai

Moriyasu

Nakahata

et al. 2017

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To examine whether edible peptide intake affects neurotransmitter metabolism in the brain, we evaluated the effect of peptides derived from soy proteins or fish collagen on free amino acids and monoamines in the mouse brain. Ingestion of soy peptides led to markedly higher levels of tyrosine, a catecholamine precursor, in the serum, and cerebral cortex compared to those following ingestion of vehicle alone or collagen peptides. Soy peptide ingestion also effectively increased 3-methoxy-4-hydroxyphenylethyleneglycol and normetanephrine, the principal metabolites of noradrenaline, in the cerebral cortex, hippocampus, and brainstem, whereas collagen peptides did not exert such effects. Further, soy peptide ingestion led to a significant increase in noradrenaline itself in the brainstem, where noradrenergic neurons are present. Noradrenergic turnover was also markedly stimulated in these regions after soy peptide ingestion. These in vivo observations suggest that soy peptide ingestion can maintain and promote the synthesis and metabolism of noradrenaline in the brain.

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The Dipeptides Ile-Tyr and Ser-Tyr Exert Distinct Effects on Catecholamine Metabolism in the Mouse Brainstem

Moriyasu

Ichinose

Nakahata

et al. 2016

International Journal of Peptides

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Catecholamine synthesis and transmission in the brain are influenced by the availability of Tyr in the body. In this study, we compared the effects of oral administration of Tyr-containing dipeptides Ile-Tyr, Ser-Tyr, and Tyr-Pro with Tyr alone on catecholamine metabolism in the mouse brainstem. Among these dipeptides, Ile-Tyr administration led to increases in dopamine, the dopamine metabolites homovanillic acid, and 3,4-dihydroxyphenylacetic acid, compared to administration of Ser-Tyr, Tyr-Pro, or Tyr alone. In comparison, administration of Ser-Tyr induced significantly increasing noradrenaline turnover, while Tyr-Pro administration suppressed dopamine turnover. Therefore, oral administration of Ile-Tyr, Ser-Tyr, and Tyr-Pro differentially affected metabolism of dopamine and noradrenaline. These observations strongly suggest that Tyr-containing dipeptides exert distinct effects on catecholamine metabolism in the brainstem when ingested orally.

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Akane Nakahata

Orally administrated dipeptide Ser-Tyr efficiently stimulates noradrenergic turnover in the mouse brain

Soy peptide ingestion augments the synthesis and metabolism of noradrenaline in the mouse brain

The Dipeptides Ile-Tyr and Ser-Tyr Exert Distinct Effects on Catecholamine Metabolism in the Mouse Brainstem

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