头部中子辐照后脑损伤的特征及乳铁蛋白对损伤的改变

IF 0.8 4区 生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY Doklady Biochemistry and Biophysics Pub Date : 2024-10-31 DOI:10.1134/S1607672924701205
A V Rodina, O V Vysotskaya, A S Zhirnik, O D Smirnova, A A Parfenova, A N Strepetov, Yu P Semochkina, M V Nesterenko, E Yu Moskaleva
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引用次数: 0

摘要

该研究的目的是调查γ,n-辐照小鼠头部对脑细胞损伤、行为和认知能力的影响,并研究使用乳铁蛋白(LF)减轻辐射引起的损伤的可能性:将小鼠头部置于来自 IR-8 核反应堆的中子和伽马射线束中进行辐照。使用 Percoll 分离对照组和辐照组小鼠的脑细胞。使用荧光标记抗体和流式细胞术分析神经元以及静止和活化的小胶质细胞。通过γH2AX组蛋白含量测定神经元中DNA双链断裂的水平。海马中细胞因子基因的表达通过 RT-PCR 进行研究。行为和认知功能的研究采用了开阔地、莫里斯水迷宫和新物体识别测试。通过制备离子交换色谱法从雌鼠初乳中分离出LF,并通过肝素-Sepharose亲和层析法进行纯化。照射24小时后,细胞总数和分离出的部分脑细胞中的神经元数量减少,但小胶质细胞的数量保持不变。静息和活化的小胶质细胞数量在γ,n-照射后3-72小时内没有变化。剂量为 1.5 Gy 的γ,n 照射小鼠头部 2 个月后,TNFα、IL-1β 和 IL-6 基因的表达水平升高,表明神经炎症开始发展。此时,辐照小鼠表现出焦虑样行为,空间记忆和外显记忆受损。在头部接受γ,n-辐照后立即给小鼠注射人LF,不会影响观察到的辐照引起的紊乱,但会降低辐照2个月后海马中TNFα、IL-1β和IL-6促炎细胞因子的基因表达水平,提高TGFβ抗炎细胞因子的基因表达水平。结论:对小鼠头部进行 1.5 Gy 剂量的γ、n-射线照射会导致神经元 DNA 损伤和神经元数量减少。小胶质细胞对这种辐射照射有较强的抵抗力。只对头部进行γ,n-辐射后,小鼠会出现神经炎症,表现为海马中促炎症细胞因子基因表达增加,以及焦虑行为和认知功能受损。服用一次 LF 会导致神经炎症水平部分下降,但不会影响其他研究参数。LF的最佳剂量方案仍有待确定,以便在γ,n-照射大脑后保护认知功能。
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Features of Brain Damage after Neutron Irradiation of the Head and Modification of the Damage by Lactoferrin.

The purpose of the study was to investigate the effect of γ,n-irradiation of the mouse head on the brain cells damage, behavior, and cognition and to examine the possibility of using lactoferrin (LF) to alleviate radiation-induced impairments.

Materials and methods: : Mouse heads were irradiated in a beam of neutrons and gamma rays from the IR-8 nuclear reactor. The brain cells of control and irradiated mice were isolated using Percoll. Neurons and resting and activated microglial cells were analyzed using the fluorescently labeled antibodies and flow cytometry. The level of DNA double-strand breaks in neurons was determined by γH2AX histone content. Cytokine gene expression in the hippocampus was studied by RT-PCR. Behavior and cognitive functions were studied using the open field, Morris water maze, and novel object recognition tests. LF was isolated from female colostrum by preparative ion-exchange chromatography and purified by affinity chromatography on heparin-Sepharose.

Results: : γ,n-Irradiation of the mouse head at a dose of 1.5 Gy led to an increase in the level of DNA double-strand breaks in neurons. Twenty-four hours after irradiation the total number of cells and the number of neurons in the isolated fraction of brain cells decreased, but the number of microglial cells remained unchanged. The number of resting and activated microglia did not change within 3-72 h after γ,n-irradiation. The expression level of the TNFα, IL-1β, and IL-6 genes increased 2 months after γ,n-irradiation of the mouse head at a dose of 1.5 Gy, indicating the development of neuroinflammation. At this time, irradiated mice demonstrated the anxiety-like behavior and impaired spatial and episodic memory. A single i.p. administration of human LF to mice immediately after γ,n-irradiation of the head did not affect the observed radiation-induced disturbances, but decreased the gene expression levels of TNFα, IL-1β, and IL-6 pro-inflammatory cytokines and increased the gene expression level of TGFβ anti-inflammatory cytokine in the hippocampus 2 months after radiation exposure. The obtained results indicate a partial decrease in the level of hippocampal neuroinflammation of irradiated animals treated with LF.

Conclusions: . γ,n-Irradiation of the mouse head at a dose of 1.5 Gy leads to DNA damage of neurons and the decrease in the number of neurons. Microglia cells are more resistant to such radiation exposure. Late after head-only γ,n-irradiation, mice develop neuroinflammation, which is detected by an increase in the pro-inflammatory cytokine gene expression in the hippocampus and also by anxiety-like behavior and impaired cognitive functions. A single LF administration leads to a partial decrease in the neuroinflammation level, but does not affect the other studied parameters. The optimal dosing regimen of LF remains to be determined to preserve cognitive functions after γ,n-irradiation of the brain.

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来源期刊
Doklady Biochemistry and Biophysics
Doklady Biochemistry and Biophysics 生物-生化与分子生物学
CiteScore
1.60
自引率
12.50%
发文量
68
审稿时长
6-12 weeks
期刊介绍: Doklady Biochemistry and Biophysics is a journal consisting of English translations of articles published in Russian in biochemistry and biophysics sections of the Russian-language journal Doklady Akademii Nauk. The journal''s goal is to publish the most significant new research in biochemistry and biophysics carried out in Russia today or in collaboration with Russian authors. The journal accepts only articles in the Russian language that are submitted or recommended by acting Russian or foreign members of the Russian Academy of Sciences. The journal does not accept direct submissions in English.
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