正常的睡眠阶段对于线虫的生存并非必需,而 FoxO 对于睡眠的代偿性变化很重要。
Normal sleep bouts are not essential for C. elegans survival and FoxO is important for compensatory changes in sleep.
机构信息
Department of Molecular Biology, Cell Biology and Biochemistry, Brown University, 185 Meeting Street, Providence, RI, 02912, USA.
Department of Neuroscience, Brown University, 185 Meeting Street, Box GL-N, Providence, RI, 02912, USA.
出版信息
BMC Neurosci. 2018 Mar 9;19(1):10. doi: 10.1186/s12868-018-0408-1.
BACKGROUND
Sleep deprivation impairs learning, causes stress, and can lead to death. Notch and JNK-1 pathways impact C. elegans sleep in complex ways; these have been hypothesized to involve compensatory sleep. C. elegans DAF-16, a FoxO transcription factor, is required for homeostatic response to decreased sleep and DAF-16 loss decreases survival after sleep bout deprivation. Here, we investigate connections between these pathways and the requirement for sleep after mechanical stress.
RESULTS
Reduced function of Notch ligand LAG-2 or JNK-1 kinase resulted in increased time in sleep bouts during development. These animals were inappropriately easy to arouse using sensory stimulation, but only during sleep bouts. This constellation of defects suggested that poor quality sleep bouts in these animals might activate homeostatic mechanisms, driving compensatory increased sleep bouts. Testing this hypothesis, we found that DAF-16 FoxO function was required for increased sleep bouts in animals with defective lag-2 and jnk-1, as loss of daf-16 reduced sleep bouts back to normal levels. However, loss of daf-16 did not suppress arousal thresholds defects. Where DAF-16 function was required differed; in lag-2 and jnk-1 animals, daf-16 function was required in neurons or muscles, respectively, suggesting that disparate tissues can drive a coordinated response to sleep need. Sleep deprivation due to mechanical stimulation can cause death in many species, including C. elegans, suggesting that sleep is essential. We found that loss of sleep bouts in C. elegans due to genetic manipulation did not impact their survival, even in animals lacking DAF-16 function. However, we found that sleep bout deprivation was often fatal when combined with the concurrent stress of mechanical stimulation.
CONCLUSIONS
Together, these results in C. elegans confirm that Notch and JNK-1 signaling are required to achieve normal sleep depth, suggest that DAF-16 is required for increased sleep bouts when signaling decreases, and that failure to enter sleep bouts is not sufficient to cause death in C. elegans, unless paired with concurrent mechanical stress. These results suggest that mechanical stress may directly contribute to death observed in previous studies of sleep deprivation and/or that sleep bouts have a uniquely restorative role in C. elegans sleep.
背景
睡眠剥夺会损害学习能力,导致压力,并可能导致死亡。Notch 和 JNK-1 途径以复杂的方式影响秀丽隐杆线虫的睡眠;这些途径被假设涉及代偿性睡眠。秀丽隐杆线虫的 DAF-16,一种 FoxO 转录因子,是对睡眠减少的体内平衡反应所必需的,而 DAF-16 的缺失会减少睡眠剥夺后的生存。在这里,我们研究了这些途径与机械应激后睡眠的关系。
结果
Notch 配体 LAG-2 或 JNK-1 激酶功能降低导致发育过程中睡眠发作时间增加。这些动物在使用感觉刺激唤醒时很容易被唤醒,但只在睡眠发作期间。这种缺陷的组合表明,这些动物的睡眠质量较差可能会激活体内平衡机制,驱动代偿性增加的睡眠发作。为了验证这一假说,我们发现,在 lag-2 和 jnk-1 缺陷动物中,DAF-16 FoxO 功能是增加睡眠发作所必需的,因为 daf-16 的缺失将睡眠发作减少到正常水平。然而,daf-16 的缺失并没有抑制觉醒阈值缺陷。DAF-16 功能所需的组织不同;在 lag-2 和 jnk-1 动物中,daf-16 功能分别在神经元或肌肉中是必需的,这表明不同的组织可以驱动对睡眠需求的协调反应。机械刺激引起的睡眠剥夺会导致许多物种死亡,包括秀丽隐杆线虫,这表明睡眠是必不可少的。我们发现,由于遗传操作导致秀丽隐杆线虫的睡眠发作减少不会影响它们的生存,即使在缺乏 DAF-16 功能的动物中也是如此。然而,我们发现,当与机械刺激的并发应激相结合时,睡眠发作的剥夺通常是致命的。
结论
综上所述,这些秀丽隐杆线虫的结果证实,Notch 和 JNK-1 信号通路是实现正常睡眠深度所必需的,表明当信号通路减弱时,DAF-16 是增加睡眠发作所必需的,而秀丽隐杆线虫不进入睡眠发作并不会导致死亡,除非与并发的机械应激相结合。这些结果表明,机械应激可能直接导致以前睡眠剥夺研究中观察到的死亡,或者睡眠发作在秀丽隐杆线虫睡眠中具有独特的恢复作用。
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