在小鼠模型中,补体组分5(C5)缺乏改善了创伤性脑损伤后的认知结果,并增强了补体抑制剂C1-Inh和CR2Crry的治疗效果。

IF 1.8 Q3 CLINICAL NEUROLOGY
Neurotrauma reports Pub Date : 2023-10-11 eCollection Date: 2023-01-01 DOI:10.1089/neur.2023.0024
Min Chen, Stephen R Edwards, Dhiraj Maskey, Trent M Woodruff, Stephen Tomlinson, David Reutens
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引用次数: 0

摘要

补体系统是先天免疫的有力效应器,对创伤性脑损伤(TBI)的病理生理学有重要贡献。本研究探讨了补体级联在TBI后神经行为结果和神经病理学中的作用。作用于补体系统不同水平的药物,包括1)C1酯酶抑制剂(C1-Inh),2)CR2Crry,作用于C3的所有途径的抑制剂,和3)选择性C5aR1拮抗剂PMX205,在1 TBI后h。在C5充足(C5+/+)和C5缺乏(C5-/-)CD1小鼠中,使用旋转棒装置评估它们对运动功能的影响,使用主动位置回避(APA)任务评估认知功能,以及控制皮层撞击损伤后慢性阶段的脑损伤大小。在TBI后C5+/+小鼠中,CR2Crry改善了旋转棒性能,CR2C-ry和PMX205改善了APA性能,PMX205减少了脑损伤大小。TBI后,C5-/-小鼠在APA任务中的表现优于C5+/+小鼠。C5缺乏增强了C1-Inh对运动功能和脑损伤的影响,以及CR2Crry对TBI后脑损伤的作用。我们的研究结果支持C3在运动缺陷中的关键作用,C3/C5/C5aR1轴在认知缺陷中的作用,以及C5aR1信号在TBI后脑损伤中的作用。研究结果表明,C5抑制与C1-Inh和CR2Crry的组合是TBI的潜在治疗策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Complement Component 5 (C5) Deficiency Improves Cognitive Outcome After Traumatic Brain Injury and Enhances Treatment Effects of Complement Inhibitors C1-Inh and CR2-Crry in a Mouse Model.

Complement Component 5 (C5) Deficiency Improves Cognitive Outcome After Traumatic Brain Injury and Enhances Treatment Effects of Complement Inhibitors C1-Inh and CR2-Crry in a Mouse Model.

Complement Component 5 (C5) Deficiency Improves Cognitive Outcome After Traumatic Brain Injury and Enhances Treatment Effects of Complement Inhibitors C1-Inh and CR2-Crry in a Mouse Model.

Complement Component 5 (C5) Deficiency Improves Cognitive Outcome After Traumatic Brain Injury and Enhances Treatment Effects of Complement Inhibitors C1-Inh and CR2-Crry in a Mouse Model.

A potent effector of innate immunity, the complement system contributes significantly to the pathophysiology of traumatic brain injury (TBI). This study investigated the role of the complement cascade in neurobehavioral outcomes and neuropathology after TBI. Agents acting at different levels of the complement system, including 1) C1 esterase inhibitor (C1-Inh), 2) CR2-Crry, an inhibitor of all pathways acting at C3, and 3) the selective C5aR1 antagonist, PMX205, were administered at 1 h post-TBI. Their effects were evaluated on motor function using the rotarod apparatus, cognitive function using the active place avoidance (APA) task, and brain lesion size at a chronic stage after controlled cortical impact injury in C5-sufficient (C5+/+) and C5-deficient (C5-/-) CD1 mice. In post-TBI C5+/+ mice, rotarod performance was improved by CR2-Crry, APA performance was improved by CR2-Crry and PMX205, and brain lesion size was reduced by PMX205. After TBI, C5-/- mice performed better in the APA task compared with C5+/+ mice. C5 deficiency enhanced the effect of C1-Inh on motor function and brain damage and the effect of CR2-Crry on brain damage after TBI. Our findings support critical roles for C3 in motor deficits, the C3/C5/C5aR1 axis in cognitive deficits, and C5aR1 signaling in brain damage after TBI. Findings suggest the combination of C5 inhibition with C1-Inh and CR2-Crry as potential therapeutic strategies in TBI.

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