Sleep and circadian defects in a Drosophila model of mitochondrial encephalomyopathy

Q2 Medicine
Keri J. Fogle , Catherina L. Mobini , Abygail S. Paseos , Michael J. Palladino
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引用次数: 7

Abstract

Mitochondrial encephalomyopathies (ME) are complex, incurable diseases characterized by severe bioenergetic distress that can affect the function of all major organ systems but is especially taxing to neuromuscular tissues. Animal models of MEs are rare, but the Drosophila ATP61 mutant is a stable, well-characterized genetic line that accurately models progressive human mitochondrial diseases such as Maternally-Inherited Leigh Syndrome (MILS), Neuropathy, Ataxia, and Retinitis Pigmentosa (NARP), and Familial Bilateral Striatal Necrosis (FBSN). While it is established that this model exhibits important hallmarks of ME, including excess cellular and mitochondrial reactive oxygen species, shortened lifespan, muscle degeneration, and stress-induced seizures, it is unknown whether it exhibits defects in sleep or circadian function. This is a clinically relevant question, as many neurological and neurodegenerative diseases are characterized by such disturbances, which can exacerbate other symptoms and worsen quality of life. Since Drosophila is highly amenable to sleep and circadian studies, we asked whether we could detect disease phenotypes in the circadian behaviors of ATP61. Indeed, we found that day-time and night-time activity and sleep are altered through disease progression, and that circadian patterns are disrupted at both the behavioral and neuronal levels. These results establish ATP61 as an important model of sleep and circadian disruption in ME that can be studied mechanistically at the molecular, cellular, and behavioral level to uncover underlying pathophysiology and test novel therapies.

线粒体脑肌病果蝇模型的睡眠和昼夜节律缺陷
线粒体脑肌病(ME)是一种复杂的、不可治愈的疾病,其特征是严重的生物能量障碍,可以影响所有主要器官系统的功能,但对神经肌肉组织尤其不利。脑脊髓炎的动物模型很少见,但果蝇ATP61突变体是一种稳定、特征明确的遗传系,可以准确地模拟进行性人类线粒体疾病,如母系遗传性利综合征(MILS)、神经病变、共济失调和色素性视网膜炎(NARP)以及家族性双侧纹状体坏死(FBSN)。虽然已经确定该模型表现出脑脊髓炎的重要特征,包括细胞和线粒体活性氧过多、寿命缩短、肌肉退化和压力诱导的癫痫发作,但尚不清楚它是否表现出睡眠或昼夜节律功能缺陷。这是一个与临床相关的问题,因为许多神经和神经退行性疾病都以这种紊乱为特征,这种紊乱会加剧其他症状并恶化生活质量。由于果蝇非常适合睡眠和昼夜节律研究,我们询问是否可以在ATP61的昼夜节律行为中检测疾病表型。事实上,我们发现,白天和晚上的活动和睡眠会随着疾病的进展而改变,昼夜节律模式在行为和神经元层面都会被破坏。这些结果将ATP61确立为脑脊髓炎睡眠和昼夜节律紊乱的重要模型,可以在分子、细胞和行为水平上进行机制研究,以揭示潜在的病理生理学并测试新的治疗方法。
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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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