Cell-Specific Gene Expressions Underlie Selective White Matter Loss Vulnerability in Mild Traumatic Brain Injury.

IF 3.9 2区 医学 Q1 CLINICAL NEUROLOGY Journal of neurotrauma Pub Date : 2024-10-25 DOI:10.1089/neu.2024.0022
Xiaoyan Jia, Wenpu Zhao, Haonan Zhang, Xiang Zhang, Qiuyu Ji, Xuan Li, Yizhen Pan, Xiaofan Jiang, Jie Zhang, Lijun Bai
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Abstract

Traumatic brain injury (TBI), a risk factor for later-life dementia, leads to salient brain atrophy, particularly in the white matter. It is not clear how white matter atrophy progresses or why some brain regions are damaged while others are spared. We hypothesized that spatial variations of cell-specific gene expression contributed to the selective white matter loss vulnerability following mild TBI (mTBI). Gene expression data were sourced from the publicly available Allen Human Brain Atlas, which comprises microarray data spanning nearly the entire brain, derived from six neurologically normal adult donors. A total of 100 patients with acute stage (within 7 days post-injury) mTBI were enrolled. Of these, 60 patients were followed up at 3 months post-injury and 37 were followed up at 6-12 months post-injury. In addition, 59 healthy controls (HCs), matched for age, gender, and education, were included for comparative analysis. White matter volume changes were analyzed at both the acute stage, 3 months, and 6-12 months follow-up in mTBI patients compared with HCs. Patients with mTBI exhibited significant white matter atrophy in the frontal, parietal, and temporal cortices at 3 months post-injury, which even persisted at 6-12 months follow-up. In addition, mTBI patients with cognitive deficits showed more severe brain atrophy compared with those without cognitive deficits. Crucially, the gene expression marking endothelial cells and S1 pyramidal neurons were associated with increased brain atrophy, whereas the gene expression marking microglia and CA1 pyramidal neurons were associated with decreased brain atrophy in mTBI patients at 3 months post-injury. Microglia and endothelial cells can explain 23.6% of regional variations in the white matter atrophy. These findings suggested that modulating cellular activation, especially by promoting microglial activation at 3 months post-injury, might be a promising approach to prevent white matter atrophy, enhance cognitive outcomes, and reduce the risk of later-life dementia.

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细胞特异性基因表达是轻度创伤性脑损伤白质丢失脆弱性的基础。
创伤性脑损伤(TBI)是导致晚年痴呆症的一个风险因素,会导致明显的脑萎缩,尤其是脑白质的萎缩。目前尚不清楚白质萎缩是如何发展的,也不清楚为什么一些脑区受损,而另一些脑区却幸免于难。我们假设,细胞特异性基因表达的空间变化是导致轻度创伤性脑损伤(mTBI)后白质选择性丧失的原因。基因表达数据来自公开的艾伦人类脑图谱,该图谱包括几乎整个大脑的微阵列数据,数据来自六名神经正常的成人供体。共招募了 100 名急性期(受伤后 7 天内)mTBI 患者。其中,60 名患者在伤后 3 个月接受了随访,37 名患者在伤后 6-12 个月接受了随访。此外,还纳入了 59 名年龄、性别和教育程度相匹配的健康对照组(HCs)进行对比分析。与健康对照组相比,分析了 mTBI 患者在急性期、3 个月和 6-12 个月随访期间的白质体积变化。mTBI 患者在伤后 3 个月时,额叶、顶叶和颞叶皮质的白质明显萎缩,甚至在 6-12 个月的随访中仍持续存在。此外,与无认知障碍的患者相比,有认知障碍的 mTBI 患者表现出更严重的脑萎缩。重要的是,标记内皮细胞和S1锥体神经元的基因表达与脑萎缩加重有关,而标记小胶质细胞和CA1锥体神经元的基因表达与创伤后3个月脑萎缩减轻有关。小胶质细胞和内皮细胞可以解释 23.6% 的白质萎缩区域差异。这些研究结果表明,调节细胞活化,特别是通过促进损伤后3个月的小胶质细胞活化,可能是预防白质萎缩、提高认知能力和降低晚年痴呆症风险的一种有前途的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of neurotrauma
Journal of neurotrauma 医学-临床神经学
CiteScore
9.20
自引率
7.10%
发文量
233
审稿时长
3 months
期刊介绍: Journal of Neurotrauma is the flagship, peer-reviewed publication for reporting on the latest advances in both the clinical and laboratory investigation of traumatic brain and spinal cord injury. The Journal focuses on the basic pathobiology of injury to the central nervous system, while considering preclinical and clinical trials targeted at improving both the early management and long-term care and recovery of traumatically injured patients. This is the essential journal publishing cutting-edge basic and translational research in traumatically injured human and animal studies, with emphasis on neurodegenerative disease research linked to CNS trauma.
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