Yusuke Kabuki scite author profile

The purpose of the present study was to clarify the central nervous system function of amino acids during acute stress. In Experiment 1, changes in free amino acid pattern were investigated in the brain of neonatal chicks exposed to either restraint with isolation-induced or fasting stress. L-proline and L-arginine were decreased in the telencephalon and diencephalon under any stress. Since the central nervous system functions of L-arginine during the stress response has recently been reported, in Experiment 2, the effect of intracerebroventricular injection of L-proline (0.5, 1.0, 2.0 micromol) during isolation-induced stress was investigated. L-proline induced sedative and hypnotic effects in a dose-dependent manner. It is suggested that L: -proline may have an important role to attenuate the stress response in the central nervous system of chicks.

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Central L-ornithine, but not polyamines, induces a hypnotic effect in neonatal chicks under acute stress

Kurauchi¹,

Shigemi²,

Kabuki³

et al. 2010

Nutritional Neuroscience

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To clarify whether L-ornithine and/or its metabolite involves sedative and hypnotic effects under social separation stress, the effects of intracerebroventricular (i.c.v.) injection of L-ornithine and polyamines (putrescine, spermidine and spermine) were compared in chicks. Birds were injected i.c.v. with 0.5 mumol of L-ornithine, putrescine, spermidine, spermine or saline (control). After injection, chicks were immediately separated from the flock and monitored for the number of distress vocalizations and various postures. L-Ornithine greatly attenuated the stress response and caused sedative and hypnotic effects. Among the polyamines, only putrescine attenuated distress vocalizations but did not induce sleep. In conclusion, the sedative and hypnotic effect of L-ornithine was mainly induced by L-ornithine itself, while the polyamines contributed to the sedative, but not hypnotic, effect under social separation stress.

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Dietary l-tyrosine alleviates the behavioral alterations induced by social isolation stress in mice

Kabuki

Mizobe

Yamada

et al. 2009

Brain Research Bulletin

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Oral administration of l-serine reduces the locomotor activity of socially isolated rats

Shigemi

Tsuneyoshi

Yamada

et al. 2010

Neuroscience Letters

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L-Serine is considered a functional amino acid in the central nervous system, since intracerebroventricular injection of L-serine induced sedative and hypnotic effects in neonatal chicks exposed to acute stressful conditions. Accordingly, L-serine is a candidate anti-stress factor, but the effect of daily intake of L-serine on behavior of animals exposed to chronic stress has not been investigated. In the present study, we exposed rats to social isolation stress for 4 weeks, and home cage test and open field test were concluded to evaluate the effect of L-serine on behavior. To investigate L-serine supplementation modifies the brain L-serine and its metabolite contents, free amino acid contents were measured by a high performance liquid chromatography. L-Serine in the drinking water increased L-serine levels in some brain areas, but changes in its metabolites were almost negligible. L-Serine decreased locomotor activity in rats exposed to a familiar environment. In addition, L-serine decreased exploratory behavior of isolated rats, even in a novel environment. Our results could suggest that daily intake of L-serine can attenuate symptoms induced by chronic stress.

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Central l-proline attenuates stress-induced dopamine and serotonin metabolism in the chick forebrain

Hamasu

Shigemi

Kabuki

et al. 2009

Neuroscience Letters

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Yusuke Kabuki

l-Proline is a sedative regulator of acute stress in the brain of neonatal chicks

Central L-ornithine, but not polyamines, induces a hypnotic effect in neonatal chicks under acute stress

Dietary l-tyrosine alleviates the behavioral alterations induced by social isolation stress in mice

Oral administration of l-serine reduces the locomotor activity of socially isolated rats

Central l-proline attenuates stress-induced dopamine and serotonin metabolism in the chick forebrain

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