快速眼动睡眠剥夺对Wistar大鼠大脑抗氧化状态的影响。
Effect of REM sleep deprivation on the antioxidant status in the brain of Wistar rats.
作者信息
Mathangi D C, Shyamala R, Subhashini A S
机构信息
Department of Physiology Chettinad Hospital and Research Institute, Kelambakkam, Tamil Nadu 603 103;
Sri Ramachandra University, Chennai, Tamil Nadu 600 116.
出版信息
Ann Neurosci. 2012 Oct;19(4):161-4. doi: 10.5214/ans.0972.7531.190405.
BACKGROUND
Rapid eye movement [REM] sleep deprivation is a stressor. It results in a predictable syndrome of physiological changes in rats. It has been proposed that reactive oxygen species and the resulting oxidative stress may be responsible for some of the effects of sleep deprivation.
PURPOSE
The present study was undertaken to investigate the reversible nature of the effects of 96 hours of REM sleep deprivation on lipid peroxidation and total reduced glutathione level in the hypothalamus, midbrain and hindbrain of Wistar strain rats.
METHODS
The rats were deprived of REM sleep using the inverted flowerpot technique. All the animals were maintained in standard animal house condition with 12-h light and 12-h dark cycles. At the end of the stipulated time Jugular venous blood sample of 2 ml was collected under mild ether anesthesia for the assay of stress index, plasma corticosterone. Lipid peroxidation using thiobarbituric acid, total reduced glutathione using DTNB (GSH) were assayed in the brain regions dissected out.
RESULTS
This study showed that 96 hours of REM sleep deprivation results in increased lipid peroxidation and reduction in total reduced glutathione level in the discrete regions of brain studied. However following restorative sleep for 24 hours all the changes reverts back to base line value. This study shows that oxidative stress produced by 96 hours of REM sleep deprivation is reversible.
CONCLUSION
From this study it is clear that, REM sleep deprivation is a potent oxidative stressor. This could probably play a role in the behavioral and performance alteration seen in both experimental animals as well as humans following REM sleep deprivation. Further investigations in this line are needed to highlight the importance of REM sleep.
背景
快速眼动(REM)睡眠剥夺是一种应激源。它会在大鼠身上导致一系列可预测的生理变化综合征。有人提出,活性氧及其引发的氧化应激可能是睡眠剥夺某些影响的原因。
目的
本研究旨在探讨96小时REM睡眠剥夺对Wistar品系大鼠下丘脑、中脑和后脑脂质过氧化及总还原型谷胱甘肽水平影响的可逆性。
方法
采用倒置花盆技术剥夺大鼠的REM睡眠。所有动物均饲养在标准动物房条件下,光照和黑暗周期各为12小时。在规定时间结束时,在轻度乙醚麻醉下采集2ml颈静脉血样,用于检测应激指标血浆皮质酮。对解剖出的脑区进行硫代巴比妥酸法检测脂质过氧化,用5,5'-二硫代双(2-硝基苯甲酸)(DTNB)法检测总还原型谷胱甘肽(GSH)。
结果
本研究表明,96小时的REM睡眠剥夺导致所研究脑区的脂质过氧化增加和总还原型谷胱甘肽水平降低。然而,经过24小时的恢复性睡眠后,所有变化都恢复到基线值。本研究表明,96小时REM睡眠剥夺产生的氧化应激是可逆的。
结论
从本研究可以清楚地看出,REM睡眠剥夺是一种强大的氧化应激源。这可能在实验动物和人类REM睡眠剥夺后出现的行为和表现改变中起作用。需要进一步开展这方面的研究以突出REM睡眠的重要性。
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