Microglia ameliorate delirium-like phenotypes in a murine model of acute ventilator-induced lung injury.

IF 9.3 1区医学 Q1 IMMUNOLOGY

Journal of Neuroinflammation Pub Date : 2024-10-21 DOI:10.1186/s12974-024-03260-y

Landon Scott, Kevin D Winzey, Debbie Moreira, Catherine Bresee, Jean-Philippe Vit, Warren G Tourtellotte, S Ananth Karumanchi, Shouri Lahiri

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Abstract

Background: Delirium affects 50-85% of patients on mechanical ventilation and is associated with increased mortality, prolonged hospitalization, and a three-fold higher risk of dementia. Microglia, the resident immune cells of the brain, exhibit both neuroprotective and neurotoxic functions; however, their effects in mechanical ventilation-induced acute lung injury (VILI) are unknown. We hypothesize that in a model of short-term VILI, microglia play a neuroprotective role to ameliorate delirium-like phenotypes.

Methods: Microglia depletion (n = 18) was accomplished using an orally administered colony stimulating factor 1 receptor inhibitor, while controls received a vehicle diet (n = 18). We then compared extent of neuronal injury in the frontal cortex and hippocampus using cleaved caspase-3 (CC3) and multiple delirium-like behaviors in microglia depleted and non-microglia depleted male mice (C57BL/6 J aged 4-9 months) following VILI. Delirium-like behaviors were evaluated using the Open Field, Elevated Plus Maze, and Y-maze assays. We subsequently evaluated whether repopulation of microglia (n = 14 repopulation, 14 vehicle) restored the phenotypes.

Results: Frontal/hippocampal neuronal CC3 levels were significantly higher in microglia depleted VILI mice compared to vehicle-treated VILI controls (p < 0.01, p < 0.01, respectively). These structural changes were accompanied by worse delirium-like behaviors in microglia depleted VILI mice compared to vehicle controls. Specifically, microglia depleted VILI mice demonstrated: (1) significantly increased time in the periphery of the Open Field (p = 0.01), (2) significantly increased coefficient of variation (p = 0.02), (3) trend towards reduced time in the open arms of the Elevated Plus Maze (p = 0.09), and (4) significantly decreased spontaneous alternations on Y-maze (p < 0.01). There was a significant inverse correlation between frontal CC3 and percent spontaneous alternations (R² = 0.51, p < 0.01). Microglia repopulation showed a near-complete return to vehicle levels of delirium like-behaviors.

Conclusions: This study demonstrates that microglia depletion exacerbates structural and functional delirium-like phenotypes after VILI, while subsequent repopulation of microglia restores these phenotypes. These findings suggest a neuroprotective role for microglia in ameliorating neuronal and functional delirium-like phenotypes and call for consideration of interventions that leverage endogenous microglia physiology to mitigate delirium.

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小胶质细胞可改善急性呼吸机诱发肺损伤小鼠模型中的谵妄样表型。

背景：50%-85%的机械通气患者会出现谵妄，这与死亡率增加、住院时间延长以及痴呆风险增加三倍有关。小胶质细胞是大脑中的常驻免疫细胞，具有神经保护和神经毒性两种功能；然而，它们在机械通气诱导的急性肺损伤（VILI）中的作用尚不清楚。我们假设，在短期 VILI 模型中，小胶质细胞可发挥神经保护作用，改善谵妄样表型：方法：使用口服集落刺激因子 1 受体抑制剂来消耗小胶质细胞（n = 18），而对照组则接受车辆饮食（n = 18）。然后，我们使用裂解的 Caspase-3 (CC3) 比较了额叶皮层和海马的神经元损伤程度，并比较了小胶质细胞耗竭和非小胶质细胞耗竭雄性小鼠（C57BL/6 J，4-9 个月）在 VILI 后的多种谵妄样行为。谵妄样行为是通过开阔地、高架正迷宫和Y迷宫试验进行评估的。我们随后评估了小胶质细胞再填充（n = 14 个再填充，14 个车辆）是否能恢复表型：结果：与药物治疗的 VILI 对照组相比，小胶质细胞耗竭的 VILI 小鼠额叶/海马神经元 CC3 水平显著升高（p 2 = 0.51，p 结论：小胶质细胞耗竭的 VILI 小鼠额叶/海马神经元 CC3 水平显著升高：本研究表明，小胶质细胞耗竭会加重 VILI 后的结构性和功能性谵妄样表型，而随后小胶质细胞的重新填充则会恢复这些表型。这些研究结果表明，小胶质细胞在改善神经元和功能性谵妄样表型方面具有神经保护作用，因此需要考虑利用内源性小胶质细胞生理学来减轻谵妄的干预措施。

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 Neuroinflammation 医学-神经科学

CiteScore

15.90

自引率

3.20%

发文量

276

审稿时长

1 months

期刊介绍： The Journal of Neuroinflammation is a peer-reviewed, open access publication that emphasizes the interaction between the immune system, particularly the innate immune system, and the nervous system. It covers various aspects, including the involvement of CNS immune mediators like microglia and astrocytes, the cytokines and chemokines they produce, and the influence of peripheral neuro-immune interactions, T cells, monocytes, complement proteins, acute phase proteins, oxidative injury, and related molecular processes. Neuroinflammation is a rapidly expanding field that has significantly enhanced our knowledge of chronic neurological diseases. It attracts researchers from diverse disciplines such as pathology, biochemistry, molecular biology, genetics, clinical medicine, and epidemiology. Substantial contributions to this field have been made through studies involving populations, patients, postmortem tissues, animal models, and in vitro systems. The Journal of Neuroinflammation consolidates research that centers around common pathogenic processes. It serves as a platform for integrative reviews and commentaries in this field.