睡眠剥夺对色氨酸代谢的影响。

IF 2.7 Q3 NEUROSCIENCES International Journal of Tryptophan Research Pub Date : 2020-11-23 eCollection Date: 2020-01-01 DOI:10.1177/1178646920970902
Abid Bhat, Ananda Staats Pires, Vanessa Tan, Saravana Babu Chidambaram, Gilles J Guillemin
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引用次数: 29

摘要

睡眠在维持代谢稳态和细胞功能方面具有调节作用。睡眠时间不足和睡眠障碍在现代生活方式中变得越来越普遍。睡眠模式的碎片化改变了关键的细胞内第二信使和神经递质,它们在大脑发育和行为功能中起着关键作用。色氨酸代谢也被发现在SD中发生改变,这与各种神经退行性疾病有关。犬尿氨酸通路是免疫反应的主要调节因子。充足的睡眠可以缓解神经炎症,促进大脑内产生的代谢毒素的细胞清除,而睡眠不足通过犬尿氨酸途径激活色氨酸的酶降解,从而导致神经毒性代谢物的积累增加。SD导致脑内不同区域尿酸的产生和积累增加。高水平的犬尿酸会引发细胞凋亡,导致认知能力下降,并抑制神经发生。本综述旨在将睡眠剥夺对大脑色氨酸代谢和相关并发症的影响联系起来。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Effects of Sleep Deprivation on the Tryptophan Metabolism.

Sleep has a regulatory role in maintaining metabolic homeostasis and cellular functions. Inadequate sleep time and sleep disorders have become more prevalent in the modern lifestyle. Fragmentation of sleep pattern alters critical intracellular second messengers and neurotransmitters which have key functions in brain development and behavioral functions. Tryptophan metabolism has also been found to get altered in SD and it is linked to various neurodegenerative diseases. The kynurenine pathway is a major regulator of the immune response. Adequate sleep alleviates neuroinflammation and facilitates the cellular clearance of metabolic toxins produced within the brain, while sleep deprivation activates the enzymatic degradation of tryptophan via the kynurenine pathway, which results in an increased accumulation of neurotoxic metabolites. SD causes increased production and accumulation of kynurenic acid in various regions of the brain. Higher levels of kynurenic acid have been found to trigger apoptosis, leads to cognitive decline, and inhibit neurogenesis. This review aims to link the impact of sleep deprivation on tryptophan metabolism and associated complication in the brain.

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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
期刊最新文献
Baseline Inflammation but not Exercise Modality Impacts Exercise-induced Kynurenine Pathway Modulation in Persons With Multiple Sclerosis: Secondary Results From a Randomized Controlled Trial. Erratum to 'Dietary Hesperidin Suppresses Lipopolysaccharide-Induced Inflammation in Male Mice'. Investigations Towards Tryptophan Uptake and Transport Across an In Vitro Model of the Oral Mucosa Epithelium. The Tryptophan Metabolite Indole-3-Propionic Acid Raises Kynurenic Acid Levels in the Rat Brain In Vivo. Periconceptional Non-medical Maternal Determinants Influence the Tryptophan Metabolism: The Rotterdam Periconceptional Cohort (Predict Study).
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