Hypocretinergic and cholinergic contributions to sleep-wake disturbances in a mouse model of traumatic brain injury

Q2 Medicine
Hannah E. Thomasy , Heidi Y. Febinger , Kristyn M. Ringgold , Carmelina Gemma , Mark R. Opp
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引用次数: 27

Abstract

Disorders of sleep and wakefulness occur in the majority of individuals who have experienced traumatic brain injury (TBI), with increased sleep need and excessive daytime sleepiness often reported. Behavioral and pharmacological therapies have limited efficacy, in part, because the etiology of post-TBI sleep disturbances is not well understood. Severity of injuries resulting from head trauma in humans is highly variable, and as a consequence so are their sequelae. Here, we use a controlled laboratory model to investigate the effects of TBI on sleep-wake behavior and on candidate neurotransmitter systems as potential mediators. We focus on hypocretin and melanin-concentrating hormone (MCH), hypothalamic neuropeptides important for regulating sleep and wakefulness, and two potential downstream effectors of hypocretin actions, histamine and acetylcholine. Adult male C57BL/6 mice (n=6–10/group) were implanted with EEG recording electrodes and baseline recordings were obtained. After baseline recordings, controlled cortical impact was used to induce mild or moderate TBI. EEG recordings were obtained from the same animals at 7 and 15 days post-surgery. Separate groups of animals (n=6–8/group) were used to determine effects of TBI on the numbers of hypocretin and MCH-producing neurons in the hypothalamus, histaminergic neurons in the tuberomammillary nucleus, and cholinergic neurons in the basal forebrain. At 15 days post-TBI, wakefulness was decreased and NREM sleep was increased during the dark period in moderately injured animals. There were no differences between groups in REM sleep time, nor were there differences between groups in sleep during the light period. TBI effects on hypocretin and cholinergic neurons were such that more severe injury resulted in fewer cells. Numbers of MCH neurons and histaminergic neurons were not altered under the conditions of this study. Thus, we conclude that moderate TBI in mice reduces wakefulness and increases NREM sleep during the dark period, effects that may be mediated by hypocretin-producing neurons and/or downstream cholinergic effectors in the basal forebrain.

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下丘脑分泌能和胆碱能对创伤性脑损伤小鼠模型的睡眠-觉醒障碍的贡献
睡眠和觉醒障碍发生在大多数经历过创伤性脑损伤(TBI)的个体中,经常报告睡眠需求增加和白天过度嗜睡。行为和药物治疗的效果有限,部分原因是脑外伤后睡眠障碍的病因尚不清楚。人类头部创伤造成的损伤的严重程度是高度可变的,因此其后遗症也是如此。在这里,我们使用一个受控的实验室模型来研究创伤性脑损伤对睡眠-觉醒行为和候选神经递质系统作为潜在介质的影响。我们重点研究下丘脑分泌素和黑色素集中激素(MCH)、调节睡眠和觉醒的下丘脑神经肽,以及下丘脑分泌素作用的两种潜在下游效应物,组胺和乙酰胆碱。将成年雄性C57BL/6小鼠(n=6 - 10只/组)植入脑电记录电极,获得基线记录。基线记录后,控制性皮质冲击用于诱导轻度或中度TBI。在术后7天和15天分别对同一只动物进行脑电图记录。采用不同动物组(n= 6-8 /组)测定脑外伤对下丘脑下丘脑分泌下丘脑下丘脑分泌下丘脑下丘脑分泌mch神经元、结节乳头核组胺能神经元和基底前脑胆碱能神经元数量的影响。在脑外伤后15天,中度损伤动物在黑暗期觉醒减少,非快速眼动睡眠增加。两组间快速眼动睡眠时间无差异,两组间轻度睡眠时间无差异。脑外伤对下丘脑分泌素和胆碱能神经元的影响是,损伤越严重,细胞越少。在本研究条件下,MCH神经元和组胺能神经元的数量未发生变化。因此,我们得出结论,中度脑外伤小鼠在黑暗期会减少清醒并增加非快速眼动睡眠,这种作用可能是由基底前脑分泌下丘脑分泌素的神经元和/或下游胆碱能效应物介导的。
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来源期刊
Neurobiology of Sleep and Circadian Rhythms
Neurobiology of Sleep and Circadian Rhythms Neuroscience-Behavioral Neuroscience
CiteScore
4.50
自引率
0.00%
发文量
9
审稿时长
69 days
期刊介绍: Neurobiology of Sleep and Circadian Rhythms is a multidisciplinary journal for the publication of original research and review articles on basic and translational research into sleep and circadian rhythms. The journal focuses on topics covering the mechanisms of sleep/wake and circadian regulation from molecular to systems level, and on the functional consequences of sleep and circadian disruption. A key aim of the journal is the translation of basic research findings to understand and treat sleep and circadian disorders. Topics include, but are not limited to: Basic and translational research, Molecular mechanisms, Genetics and epigenetics, Inflammation and immunology, Memory and learning, Neurological and neurodegenerative diseases, Neuropsychopharmacology and neuroendocrinology, Behavioral sleep and circadian disorders, Shiftwork, Social jetlag.
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