Sun Huaiqing, Cao Qiuchen, He Xiaoxin, Du Xinyu, Jiang Xueqin, Wu Ting, Xiao Ming
Department of Neurology, the First Affiliated Hospital With Nanjing Medical University Nanjing, Jiangsu, 210029, China.
Jiangsu Province Key Laboratory of Neurodegeneration, Nanjing Medical University, Jiangsu, Nanjing, 211166, China.
Mol Neurobiol. 2025 Apr 28. doi: 10.1007/s12035-025-04992-5.
Chronic sleep restriction (SR) impairs the glymphatic clearance of macromolecular toxic metabolites, which is associated with the loss of perivascular polarization of aquaporin-4 (AQP4). Melatonin (Mel) has been shown to maintain the circadian rhythm of AQP4 polarization. However, the role of AQP4 polarization in Mel's protective effects against SR-induced brain dysfunction remains unclear. In the present study, using a modified rotating rod SR mouse model, we demonstrated the time-dependent effect of SR on short-term memory deficits and AQP4 mislocalization in the hippocampus. Subsequent experiments characterized the dose-dependent pattern of Mel ameliorating SR-induced impairments of cognitive function and AQP4 polarity. Mel's treatment enhanced glymphatic transport in SR mice, as revealed by cerebrospinal tracer experiments, and reduced hippocampal amyloid-beta and phosphorylated tau levels. Additionally, Mel significantly decreased glial cell activation, pro-inflammatory cytokine production, and synaptic protein loss in the hippocampus of SR mice. However, in AQP4 knockout mice, Mel's protective effects against SR-induced pathophysiological alterations described above were largely abolished. Mechanistically, Mel activated the vitamin D receptor and then upregulated expression of DTNA (Dystrobrevin Alpha), a key component of the dystrophin-associated complex, which in turn restored AQP4 polarization during chronic SR conditions. This finding indicates that AQP4-mediated lymphatic clearance is necessary for Mel to combat chronic SR-induced brain impairment.
慢性睡眠限制(SR)会损害大分子毒性代谢产物的类淋巴清除,这与水通道蛋白4(AQP4)血管周围极化的丧失有关。褪黑素(Mel)已被证明可维持AQP4极化的昼夜节律。然而,AQP4极化在Mel对SR诱导的脑功能障碍的保护作用中的作用仍不清楚。在本研究中,我们使用改良的转棒SR小鼠模型,证明了SR对海马短期记忆缺陷和AQP4定位错误的时间依赖性影响。随后的实验表征了Mel改善SR诱导的认知功能障碍和AQP4极性的剂量依赖性模式。脑脊液示踪实验显示,Mel治疗增强了SR小鼠的类淋巴运输,并降低了海马淀粉样β蛋白和磷酸化tau蛋白水平。此外,Mel显著降低了SR小鼠海马中的胶质细胞活化、促炎细胞因子产生和突触蛋白损失。然而,在AQP4基因敲除小鼠中,Mel对上述SR诱导的病理生理改变的保护作用在很大程度上被消除。机制上,Mel激活维生素D受体,然后上调肌营养不良蛋白相关复合物的关键成分DTNA(α - 肌营养不良素)的表达,这反过来在慢性SR条件下恢复了AQP4极化。这一发现表明,AQP4介导的淋巴清除对于Mel对抗慢性SR诱导的脑损伤是必要的。
