Department of Psychiatry and Biobehavioral Sciences, University of California, Los Angeles, Los Angeles, California 90024-1759, USA.
J Neurosci. 2011 Jul 13;31(28):10201-5. doi: 10.1523/JNEUROSCI.0451-11.2011.
Disruptions in sleep/wake cycles, including decreased amplitude of rhythmic behaviors and fragmentation of the sleep episodes, are commonly associated with aging in humans and other mammals. While there are undoubtedly many factors contributing to these changes, a body of literature is emerging, suggesting that an age-related decline in the central circadian clock in the suprachiasmatic nucleus (SCN) may be a key element responsible. To explore age-related changes in the SCN, we have performed in vivo multiunit neural activity (MUA) recordings from the SCN of freely moving young (3-5 months) and middle-aged (13-18 months) mice. Importantly, the amplitude of day-night difference in MUA was significantly reduced in the older mice. We also found that the neural activity rhythms are clearly degraded in the subparaventricular zone, one of the main neural outputs of the SCN. Surprisingly, parallel studies indicate that the molecular clockwork in the SCN as measured by PER2 exhibited only minor deficits at this same age. Thus, the circadian output measured at the level of neural activity rhythms in the SCN is degraded by aging, and this decline occurs before the disruption of key components of the molecular clockwork.
睡眠/觉醒周期的紊乱,包括节律性行为幅度的降低和睡眠片段的碎片化,通常与人类和其他哺乳动物的衰老有关。虽然毫无疑问有许多因素导致了这些变化,但越来越多的文献表明,衰老导致视交叉上核(SCN)中央生物钟的衰退可能是一个关键因素。为了探索 SCN 与年龄相关的变化,我们对自由活动的年轻(3-5 个月)和中年(13-18 个月)小鼠的 SCN 进行了活体多单位神经活动(MUA)记录。重要的是,老年小鼠的 MUA 昼夜差异幅度明显降低。我们还发现,SCN 的主要神经输出之一——室旁下区的神经活动节律明显恶化。令人惊讶的是,平行研究表明,在同一时期,SCN 中 PER2 测量的分子钟仅表现出轻微缺陷。因此,SCN 中神经活动节律测量的昼夜输出随着年龄的增长而退化,这种衰退发生在分子钟关键成分紊乱之前。