Department of Spinal Cord Injury and Repair, Trauma and Orthopedics Institute of Chinese PLA, The 960th Hospital of Joint Logistics Support Force of PLA, Jinan, Shandong, People's Republic of China.
Institute of Military Cognitive and Brain Sciences, Academy of Military Medical Sciences, Beijing, 100850, People's Republic of China.
Inflammopharmacology. 2020 Dec;28(6):1553-1566. doi: 10.1007/s10787-020-00750-2. Epub 2020 Sep 21.
We aimed to elucidate the role of cortical and hippocampal dendritic spines on neurological deficits associated with hippocampal microgliosis, hippocampal neurogenesis, and neuroinflammation in mice with cortical compact impact (CCI) injury. In the present study, we found that CCI reduced spatial memory mean latency (10 s. vs 50 s) and motor dysfunction (130 s. vs 150 s.) in mice, as determined by Morris water maze and rotarod test, respectively. Golgi staining of cortical pyramidal neurons revealed that, compared to the controls, the CCI group treated with vehicle solution had significantly lower values of dendritic order (or dendritic branch number) (4.0 vs 6.2), total spine length (400 μm vs 620 μm) and spine density (40 spines/μm vs 60 spines/μm), but had significantly higher values of dendritic beading (40 beadings/mm vs 20 beadings/mm). Additionally, Sholl analysis showed that, compared to controls, the CCI + NS group mice had significantly lower values of dendritic intersections (1.0 vs 2.0). Immunofluorescence assay also revealed that, compared to controls, the CCI + NS group mice had significantly higher values of the newly formed hippocampal cells (1250/mm vs 1000/mm) but significantly lower values of dendritic order (2.0 branch # vs 4.2 branch #), total spine length (180 μm vs 320 μm) and intersection (1.0 vs 3.0). The CCI + NS group mice further showed significantly higher numbers of microglia in the dentate gyrus of the hippocampus and higher concentrations of pro-inflammatory cytokines in the cerebrospinal fluids. All the CCI-induced spatial memory (40 s) and motor (150 s) dysfunction, deranged dendritic and spine morphology of cortical pyramidal neurons or hippocampal newly formed cells, hippocampal microgliosis, and central neuroinflammation were all significantly reduced by melatonin administration during post-CCI. Simultaneously, melatonin therapy caused an enhancement in the compensatory hippocampal neurogenesis and neurotrophic growth factors (e.g., doublecortin-1) and compensatory central anti-inflammatory cytokines. Our results indicate that melatonin attenuates the spatial memory and motor deficits via the modification of cortical and hippocampal dendritic spine morphology, hippocampal microgliosis and neurogenesis, and neuroinflammation in mice with traumatic brain injury.
我们旨在阐明皮质和海马树突棘在与海马小胶质细胞增生、海马神经发生和神经炎症相关的神经功能缺损中的作用,这些作用与皮质紧密冲击(CCI)损伤的小鼠有关。在本研究中,我们发现,与对照组相比,CCI 组的小鼠在水迷宫和转棒试验中分别出现空间记忆潜伏期(10s 与 50s)和运动功能障碍(130s 与 150s)的明显降低。皮质锥体神经元的高尔基染色显示,与对照组相比,用载体溶液处理的 CCI 组的树突分支数(4.0 与 6.2)、总棘突长度(400μm 与 620μm)和棘突密度(40 个棘突/μm 与 60 个棘突/μm)明显降低,但树突珠化(40 个珠化/mm 与 20 个珠化/mm)明显增加。此外,Sholl 分析显示,与对照组相比,CCI+NS 组的小鼠的树突交叉数(1.0 与 2.0)明显降低。免疫荧光测定还显示,与对照组相比,CCI+NS 组的小鼠海马新生细胞数(1250/mm 与 1000/mm)明显增加,但树突分支数(2.0 个分支#与 4.2 个分支#)、总棘突长度(180μm 与 320μm)和交叉数(1.0 与 3.0)明显降低。CCI+NS 组的小鼠在海马齿状回中显示出更高数量的小胶质细胞和更高浓度的促炎细胞因子在脑脊液中。褪黑素给药可显著改善 CCI 诱导的空间记忆(40s)和运动(150s)功能障碍、皮质锥体神经元或海马新生细胞的树突和棘突形态异常、海马小胶质细胞增生和中枢神经炎症,同时,褪黑素治疗可增强海马神经发生和神经营养生长因子(如双皮质素-1)和中枢抗炎细胞因子的代偿性。我们的研究结果表明,褪黑素通过调节创伤性脑损伤小鼠皮质和海马树突棘形态、海马小胶质细胞增生和神经发生以及神经炎症,减轻空间记忆和运动功能障碍。
