Spatiotemporal perturbations of the plasminogen activation system in a rat model of acute organophosphate intoxication.

IF 6.2 2区医学 Q1 NEUROSCIENCES

Acta Neuropathologica Communications Pub Date : 2025-03-18 DOI:10.1186/s40478-025-01979-0

Thomas J Blackmon, Jeremy A MacMahon, Pedro N Bernardino, Ryan E Hogans, Mei-Yun Cheng, Joan Vu, Ruth Diana Lee, Naomi H Saito, Ana Cristina Grodzki, Donald A Bruun, Heike Wulff, Kevin D Woolard, Amy Brooks-Kayal, Danielle J Harvey, Fredric A Gorin, Pamela J Lein

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引用次数: 0

Abstract

Neuroinflammation is widely posited to be a key pathogenic mechanism linking acute organophosphate (OP)-induced status epilepticus (SE) to persistent brain injury and abnormal electrical activity that contribute to epilepsy and cognitive impairment. The plasminogen activation system (PAS) promotes neuroinflammation in diverse neurological diseases but whether it is activated following acute OP intoxication has yet to be evaluated. To address this data gap, we characterized the spatiotemporal expression patterns of multiple components of the PAS in a rat model of acute intoxication with the OP, diisopropylfluorophosphate (DFP). Adult male Sprague Dawley rats administered DFP (4 mg/kg, sc), atropine sulfate (2 mg/kg, im) and 2-pralidoxime (25 mg/kg, im) went into SE that persisted for hours. One day after acute DFP-induced SE, plasmin activity and protein concentrations of plasminogen activator inhibitor-1 (PAI-1) in the plasma were increased, though not significantly. In contrast, acute DFP intoxication significantly increased brain levels of PAI-1, tissue-type plasminogen activator (tPA), urokinase plasminogen activator (uPA), and transcripts of TGF-β in a time- and region-dependent manner. In the cortex and hippocampus, quantification of PAI-1, tPA, and uPA by ELISA indicated significantly increased levels at 1 day post-exposure (DPE). PAI-1 and uPA returned to control values by 7 DPE while tPA protein remained elevated at 28 DPE. Immunohistochemistry detected elevated PAI-1 expression in the DFP brain up to 28 DPE. Co-localization of PAI-1 with biomarkers of neurons, microglia, and astrocytes demonstrated that PAI-1 localized predominantly to a subpopulation of astrocytes. Cytologically, PAI-1 localized to astrocytic end feet, but not adjacent neurovascular endothelium. Electron microscopy revealed neuronal metabolic stress and neurodegeneration with disruption of adjacent neurovascular units in the hippocampus post-DFP exposure. These data indicate that acute DFP intoxication altered PAS expression in the brain, with aberrant PAI-1 expression in a subset of reactive astrocyte populations.

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急性有机磷中毒大鼠模型中纤溶酶原激活系统的时空扰动。

神经炎症被广泛认为是将急性有机磷（OP）诱导的癫痫持续状态（SE）与导致癫痫和认知障碍的持续性脑损伤和异常电活动联系起来的关键致病机制。纤溶酶原激活系统（PAS）在多种神经系统疾病中促进神经炎症，但它是否在急性OP中毒后被激活尚待评估。为了解决这一数据缺口，我们在OP，二异丙基氟磷酸盐（DFP）急性中毒大鼠模型中表征了PAS多个组分的时空表达模式。成年雄性Sprague Dawley大鼠给予DFP （4 mg/kg, sc）、硫酸阿托品（2 mg/kg, im）和2-哌拉西肟（25 mg/kg, im）进入SE持续数小时。急性dfp诱导SE 1天后，血浆纤溶酶活性和纤溶酶原激活物抑制剂-1 （PAI-1）蛋白浓度升高，但不显著。相比之下，急性DFP中毒显著增加脑PAI-1、组织型纤溶酶原激活物（tPA）、尿激酶纤溶酶原激活物（uPA）和TGF-β转录物的水平，并呈时间和区域依赖性。在皮质和海马中，ELISA量化PAI-1、tPA和uPA的水平在暴露后1天（DPE）显著升高。PAI-1和uPA在7 DPE时恢复到控制值，而tPA蛋白在28 DPE时仍然升高。免疫组织化学检测DFP脑组织中PAI-1表达升高至28 DPE。PAI-1与神经元、小胶质细胞和星形胶质细胞的生物标志物共定位表明，PAI-1主要定位于星形胶质细胞的一个亚群。细胞学上，PAI-1定位于星形细胞端足，而不是邻近的神经血管内皮。电子显微镜显示dfp暴露后海马神经元代谢应激和神经退行性变，伴有邻近神经血管单位的破坏。这些数据表明，急性DFP中毒改变了大脑中PAS的表达，在反应性星形胶质细胞群的一部分中，PAI-1的表达异常。

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来源期刊

Acta Neuropathologica Communications Medicine-Pathology and Forensic Medicine

CiteScore

11.20

自引率

2.80%

发文量

162

审稿时长

8 weeks

期刊介绍： "Acta Neuropathologica Communications (ANC)" is a peer-reviewed journal that specializes in the rapid publication of research articles focused on the mechanisms underlying neurological diseases. The journal emphasizes the use of molecular, cellular, and morphological techniques applied to experimental or human tissues to investigate the pathogenesis of neurological disorders. ANC is committed to a fast-track publication process, aiming to publish accepted manuscripts within two months of submission. This expedited timeline is designed to ensure that the latest findings in neuroscience and pathology are disseminated quickly to the scientific community, fostering rapid advancements in the field of neurology and neuroscience. The journal's focus on cutting-edge research and its swift publication schedule make it a valuable resource for researchers, clinicians, and other professionals interested in the study and treatment of neurological conditions.