Department of Psychiatry, University of Wisconsin-MadisonMadison, WI, United States.
Medical Innovation Center, Graduate School of Medicine, Kyoto UniversityKyoto, Japan.
Front Neural Circuits. 2017 Aug 23;11:60. doi: 10.3389/fncir.2017.00060. eCollection 2017.
The activity-regulated cytoskeleton associated protein Arc is strongly and quickly upregulated by neuronal activity, synaptic potentiation and learning. Arc entry in the synapse is followed by the endocytosis of glutamatergic AMPA receptors (AMPARs), and its nuclear accumulation has been shown to result in a small decline in the transcription of the GluA1 subunit of AMPARs. Since these effects result in a decline in synaptic strength, we asked whether a change in Arc dynamics may temporally correlate with sleep-dependent GluA1 down-regulation. We measured the ratio of nuclear to cytoplasmic Arc expression (Arc Nuc/Cyto) in the cerebral cortex of EGFP-Arc transgenic mice that were awake most of the night and then perfused immediately before lights on (W mice), or were awake most of the night and then allowed to sleep (S mice) or sleep deprived (SD mice) for the first 2 h of the light phase. In primary motor cortex (M1), neurons with high levels of nuclear Arc (High Arc cells) were present in all mice, but in these cells Arc Nuc/Cyto was higher in S mice than in W mice and, importantly, ~15% higher in S mice than in SD mice collected at the same time of day, ruling out circadian effects. Greater Arc Nuc/Cyto with sleep was observed in the superficial layers of M1, but not in the deep layers. In High Arc cells, Arc Nuc/Cyto was also ~15%-30% higher in S mice than in W and SD mice in the superficial layers of primary somatosensory cortex (S1) and cingulate cortex area 1 (Cg1). In High Arc Cells of Cg1, Arc Nuc/Cyto and cytoplasmic levels of GluA1 immunoreactivities in the soma were also negatively correlated, independent of behavioral state. Thus, Arc moves to the nucleus during both sleep and wake, but its nuclear to cytoplasmic ratio increases with sleep in the superficial layers of several cortical areas. It remains to be determined whether the relative increase in nuclear Arc contributes significantly to the overall decline in the strength of excitatory synapses that occurs during sleep. Similarly, it remains to be determined whether the entry of Arc into specific synapses is gated by sleep.
活性调节细胞骨架相关蛋白 Arc 被神经元活动、突触增强和学习强烈且快速地上调。Arc 进入突触后,谷氨酸能 AMPA 受体 (AMPAR) 会发生内吞作用,其核积累已被证明会导致 AMPAR 的 GluA1 亚基的转录少量下降。由于这些效应导致突触强度下降,我们想知道 Arc 动力学的变化是否与睡眠依赖性 GluA1 下调有关。我们测量了在 EGFP-Arc 转基因小鼠大脑皮层中核内与细胞质内 Arc 表达的比值 (Arc Nuc/Cyto),这些小鼠在夜间大部分时间都保持清醒,然后在光照前立即灌注 (W 组小鼠),或者在夜间大部分时间保持清醒,然后允许睡眠 (S 组小鼠) 或在光照的前 2 小时内剥夺睡眠 (SD 组小鼠)。在初级运动皮层 (M1) 中,高核内 Arc 水平的神经元 (高 Arc 细胞) 在所有小鼠中都存在,但在 S 组小鼠中,Arc Nuc/Cyto 比 W 组小鼠高,并且与同一时间采集的 SD 组小鼠相比,重要的是,~15%高,排除了昼夜节律的影响。在 M1 的浅层中观察到与睡眠相关的更大的 Arc Nuc/Cyto,但在深层中没有观察到。在高 Arc 细胞中,Arc Nuc/Cyto 在 S 组小鼠中的浅层中也比 W 组和 SD 组小鼠高约 15%-30%,在初级体感皮层 (S1) 和扣带皮层区 1 (Cg1) 的浅层中也是如此。在 Cg1 的高 Arc 细胞中,Arc Nuc/Cyto 和胞质中 GluA1 免疫反应性的水平也呈负相关,与行为状态无关。因此,Arc 在睡眠和清醒期间都转移到细胞核,但在几个皮层区域的浅层中,其核质比随睡眠而增加。尚需确定核内 Arc 的相对增加是否对睡眠期间兴奋性突触强度的整体下降有重要贡献。同样,尚需确定 Arc 是否进入特定突触的进入是否由睡眠控制。
