神经活性色氨酸代谢物在中枢疲劳中的潜在作用:疲劳回路的建立。

IF 2.7 Q3 NEUROSCIENCES
International Journal of Tryptophan Research Pub Date : 2020-06-29 eCollection Date: 2020-01-01 DOI:10.1177/1178646920936279
Masatoshi Yamashita
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引用次数: 20

摘要

中枢性疲劳会导致执行智力任务的能力下降,社交生活中断,从童年到老年大脑功能受损。在神经化学机制方面,神经活性色氨酸代谢物被认为在中枢疲劳中起关键作用。先前的研究已经支持了“色氨酸-血清素增强假说”,该假说认为,在运动引起的疲劳大鼠模型中,色氨酸被广泛摄取到大脑区域会增强血清素的产生。然而,在跑步机跑步30分钟后,血清素会短暂释放,但这并不能反映疲劳的持续时间。此外,由于绝大多数色氨酸是通过犬尿氨酸途径代谢的,因此有人指出色氨酸-犬尿氨酸途径可能参与中枢疲劳诱导机制。最近,我们的研究表明,在睡眠剥夺引起的中枢性疲劳中,大鼠大脑摄取来自外周循环的色氨酸和犬尿氨酸可以增强犬尿酸的产生,但血清素活性没有变化。特别是,下丘脑-海马回路中胶质-神经元相互作用过程的动态变化导致中枢性疲劳。此外,该回路中色氨酸-犬尿氨酸途径活性的增加会导致记忆功能的降低。这表明内源性色氨酸-犬尿氨酸途径在中枢性疲劳中具有重要的潜在作用,这支持了“色氨酸-犬尿氨酸增强假说”。本文就神经活性色氨酸代谢物诱发中枢性疲劳的基本神经机制进行综述。值得注意的是,这些基本发现有助于我们理解与中枢性疲劳相关的潜在精神问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Potential Role of Neuroactive Tryptophan Metabolites in Central Fatigue: Establishment of the Fatigue Circuit.

Potential Role of Neuroactive Tryptophan Metabolites in Central Fatigue: Establishment of the Fatigue Circuit.

Potential Role of Neuroactive Tryptophan Metabolites in Central Fatigue: Establishment of the Fatigue Circuit.

Potential Role of Neuroactive Tryptophan Metabolites in Central Fatigue: Establishment of the Fatigue Circuit.

Central fatigue leads to reduced ability to perform mental tasks, disrupted social life, and impaired brain functions from childhood to old age. Regarding the neurochemical mechanism, neuroactive tryptophan metabolites are thought to play key roles in central fatigue. Previous studies have supported the "tryptophan-serotonin enhancement hypothesis" in which tryptophan uptake into extensive brain regions enhances serotonin production in the rat model of exercise-induced fatigue. However, serotonin was transiently released after 30 minutes of treadmill running to exhaustion, but this did not reflect the duration of fatigue. In addition, as the vast majority of tryptophan is metabolized along the kynurenine pathway, possible involvement of the tryptophan-kynurenine pathway in the mechanism of central fatigue induction has been pointed out. More recently, our study demonstrated that uptake of tryptophan and kynurenine derived from the peripheral circulation into the brain enhances kynurenic acid production in rat brain in sleep deprivation-induced central fatigue, but without change in serotonin activity. In particular, dynamic change in glial-neuronal interactive processes within the hypothalamus-hippocampal circuit causes central fatigue. Furthermore, increased tryptophan-kynurenine pathway activity in this circuit causes reduced memory function. This indicates a major potential role for the endogenous tryptophan-kynurenine pathway in central fatigue, which supports the "tryptophan-kynurenine enhancement hypothesis." Here, we review research on the basic neuronal mechanism underlying central fatigue induced by neuroactive tryptophan metabolites. Notably, these basic findings could contribute to our understanding of latent mental problems associated with central fatigue.

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来源期刊
CiteScore
7.30
自引率
4.50%
发文量
19
审稿时长
8 weeks
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