咖啡因治疗的持续时间在其对睡眠和昼夜节律的影响中起着至关重要的作用。

Aishwarya Segu, Nisha N Kannan
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引用次数: 1

摘要

睡眠是由稳态系统和生物钟调节的。摄入咖啡因可促进果蝇清醒。在人类中,咖啡因是每天消耗的,因此了解长期摄入咖啡因对睡眠昼夜节律和稳态调节的影响很重要。此外,睡眠随年龄的变化以及咖啡因对年龄依赖性睡眠碎片化的影响尚不清楚。因此,在本研究中,我们研究了短时间接触咖啡因对果蝇稳态睡眠和年龄依赖性睡眠碎片的影响。我们进一步评估了长期接触咖啡因对稳态睡眠和生物钟的影响。我们的研究结果表明,短时间接触咖啡因会减少成熟苍蝇的睡眠和食物摄入。随着年龄的增长,它还会增加睡眠碎片。然而,我们还没有评估咖啡因对老年苍蝇食物摄入的影响。另一方面,长期接触咖啡因对成年苍蝇的睡眠时间和食物摄入没有任何显著影响。然而,长期摄入咖啡因会降低这些苍蝇的早晚预期活动,这表明咖啡因会影响昼夜节律。这些苍蝇在时钟基因永恒的转录物振荡中也表现出相位延迟,并且在持续的黑暗中表现出行为心律失常或更长的自由运行期。总之,我们的研究结果表明,短时间接触咖啡因会随着年龄的增长而增加睡眠碎片,而长时间接触咖啡因则会扰乱昼夜节律。
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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The duration of caffeine treatment plays an essential role in its effect on sleep and circadian rhythm.

Sleep is regulated by the homeostatic system and the circadian clock. Caffeine intake promotes wakefulness in Drosophila. In humans, caffeine is consumed on a daily basis and hence it is important to understand the effect of prolonged caffeine intake on both circadian and homeostatic regulation of sleep. Furthermore, sleep changes with age and the impact of caffeine on age-dependent sleep fragmentation are yet to be understood. Hence in the present study, we examined the effect of short exposure to caffeine on homeostatic sleep and age-dependent sleep fragmentation in Drosophila. We further assessed the effect of prolonged exposure to caffeine on homeostatic sleep and circadian clock. The results of our study showed that short exposure to caffeine reduces sleep and food intake in mature flies. It also enhances sleep fragmentation with increasing age. However, we have not assessed the effect of caffeine on food intake in older flies. On the other hand, prolonged caffeine exposure did not exert any significant effect on the duration of sleep and food intake in mature flies. Nevertheless, prolonged caffeine ingestion decreased the morning and evening anticipatory activity in these flies indicating that it affects the circadian rhythm. These flies also exhibited phase delay in the clock gene timeless transcript oscillation and exhibited either behavioral arrhythmicity or a longer free-running period under constant darkness. In summary, the results of our studies showed that short exposure to caffeine increases the sleep fragmentation with age whereas prolonged caffeine exposure disrupts the circadian clock.

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A life of research on everyday sleep(iness). How openness and inquisitiveness led to a career as a sleep researcher and a broad contribution to sleep science. The lasting legacy of Charles Fisher (1908-1988), pioneering sleep laboratory scientist and sleep medicine psychiatrist. How did I come to sleep research and stay there? Looking beyond sleep duration in understanding obesity risk in adolescents: the role of circadian timing and misalignment on adolescent dietary outcomes, physical activity, and body mass index.
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