Targeting the sphingosine-1-phosphate system in a mouse model of Gulf War Veterans' Illness

针对海湾战争退伍军人疾病小鼠模型中的 1-磷酸鞘氨醇系统

基本信息

批准号：
10293531
负责人：
ALPASLAN DEDEOGLU
金额：
--
依托单位：
VA BOSTON HEALTH CARE SYSTEM
依托单位国家：
美国
项目类别：
财政年份：
2020
资助国家：
美国
起止时间：
2020-01-01 至 2021-12-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/10293531
关键词：
Acetylcholinesterase Acetylcholinesterase Inhibitors Affect Affective Animal Model Animals Anti-Inflammatory Agents Anxiety Astrocytes Attentional deficit Axon Behavior Behavior assessment Behavioral Biological Assay Blood Brain Brain-Derived Neurotrophic Factor Breathing Bromides C-reactive protein Cerebral cortex Chemical Warfare Chronic Clinical Trials Cognition Cognitive Complement 3c Complete Blood Count Complex Congenital neurologic anomalies Data Disease Disease Marker Dose Drug Design Drug Targeting Encephalitis Enzyme-Linked Immunosorbent Assay Etiology Exhibits Exposure to Fatigue Female Functional disorder Gender Glial Fibrillary Acidic Protein Gulf War veteran Headache Hippocampus (Brain)Human Resources Immunoassay Impaired cognition Infiltration Inflammation Inflammatory Insect Repellents Insecta Insecticides Intestines Link Locomotion Longitudinal Studies Lymphocyte Lymphocyte Count Measures Memory Mental Depression Methodology Microglia Military Personnel Modeling Molecular Monitor Motor Activity Multiple Sclerosis Mus Nervous system structure Neuraxis Neurologic Symptoms Neurological Models Neurons Oligodendroglia Pain Patients Peripheral Permethrin Pharmaceutical Preparations Pharmacology Platelet Count measurement Platelet aggregation Potassium Channel Process Production Proteomics Relapsing-Remitting Multiple Sclerosis Reporting Research Research Design Research Methodology Research Personnel Role Sarin Serum Signal Transduction Skin Abnormalities Sodium Channel Sphingosine-1-Phosphate Receptor Stomach Stress Symptoms System Techniques Testing Therapeutic Thinking Thromboxanes Time Veterans War Western Blotting Woman analog base blood-brain barrier crossing cell determination cholinergic clinical practice conditioned fear cytokine efficacy evaluation fear memory field study forced swim test gray matter imaging study immune function immune system function improved indexing innovation male men monocyte mouse model multiple sclerosis treatment nerve agent nervous system disorder neurochemistry neuroinflammation neurotrophic factor neutrophil novel persistent symptom preclinical trial prevent pyridostigmine remyelination response sexual dimorphism sphingosine 1-phosphate success targeted agent treatment effect

项目摘要

The pathophysiology of Gulf War Veterans’ Illness (GWVI) remains poorly understood, and treatments are lack- ing. Neurological symptoms including cognitive impairment, attention deficits, depression, and anxiety are a top complaint among GWVI patients. GWVI may be the result of exposure to drugs designed to protect military personnel from a chemical attack and from insects. These include: 1) pyridostigmine bromide (PB), 2) permethrin (PER), and 3) diethyltoluamide (DEET). Although these drugs are considered safe at the doses administered to GW personnel, it has been hypothesized that their combination together with the stress of war may have con- tributed synergistically to generate the GWVI. We have used an animal model of GWVI based on this hypothesis by exposing mice to relevant doses of PB, PER, DEET and stress and found anxiety, brain neuroinflammation, cholinergic, GABAergic and neurotrophic factor abnormalities as latent post-exposure markers of this disease. Some changes were sexually dimorphic indicating that the pathophysiology of GWVI and responses to potential treatments may be different in men and women. Our data provide evidence for a neuroinflammatory process in brains of GWVI-model animals, which is characterized by astrocyte and microglia activation in the hippocampus that correlates with the increased level of anxiety and memory abnormalities seen in the model and can be related to reports indicating aberrant immune function and chronic inflammation in GWVI patients. Therefore, we propose to use our mouse model of GWVI to test the hypothesis that GWVI may be ameliorated by targeting neuroinflammation using fingolimod, a drug that targets the sphingosine-1-phosphate receptor and is used for the treatment of relapsing remitting multiple sclerosis (RRMS). In RRMS it prevents the infiltration of lymphocytes into the CNS, promotes remyelination, and exerts neuroprotective effects on astrocytes. We propose to deter- mine the efficacy of fingolimod on ameliorating the delayed and persistent GWVI-related behavioral, cellular and molecular CNS abnormalities in male and female mice. Based on our preliminary data, the use of a high and low dose of fingolimod will allow us to differentiate the drug’s peripheral versus central action. We will assess the treatment effect on: a) behavior using specific animal paradigms for assessing anxiety, locomotion, memory, and depression; b) neuroinflammation measured with multiplexed proteomic immunoassays of cytokine panels and by immunohistochemical determinations of cells expressing Iba1 and GFAP; c) BDNF levels and signaling by ELISA and immunohistochemical assays; d) indices of cholinergic and GABAergic function by Western blot; e) peripheral measures of inflammation by complete blood count and serum cytokine panel assays. This study incorporates rational pharmacology with state-of-the-art neuropathological and neurochemical techniques to- gether with cognitive and affective behavioral assessment to advance therapeutic strategies for GWVI.

海湾战争退伍军人病 (GWVI) 的病理生理学仍然知之甚少，并且缺乏治疗方法。包括认知障碍、注意力缺陷、抑郁和焦虑在内的神经系统症状是最常见的。 GWVI 患者的抱怨可能是由于接触了旨在保护军人的药物所致。人员免受化学攻击和昆虫的侵害，其中包括：1) 溴化吡斯的明 (PB)，2) 氯菊酯。 (PER) 和 3) 二乙基甲苯酰胺 (DEET)，尽管这些药物在给药剂量下被认为是安全的。 GW人员，人们普遍认为，他们与战争压力的结合可能会导致我们基于这一假设使用了 GWVI 动物模型。通过将小鼠暴露于相应剂量的 PB、PER、DEET 和压力中，发现了焦虑、脑神经炎症、胆碱能、GABA能和神经营养因子异常是这种疾病的潜在暴露后标志。一些变化是性别二态性的，表明 GWVI 的病理生理学和对潜在的反应我们的数据为男性和女性的神经炎症过程提供了证据。 GWVI 模型动物的大脑，其特征是海马星形胶质细胞和小胶质细胞激活这与模型中观察到的焦虑和记忆异常程度增加相关，并且可以与表明 GWVI 患者免疫功能异常和慢性炎症的报告相关。建议使用我们的 GWVI 小鼠模型来检验通过靶向治疗可以改善 GWVI 的假设使用芬戈莫德治疗神经炎症，芬戈莫德是一种针对 1-磷酸鞘氨醇受体的药物，用于治疗复发缓解型多发性硬化症 (RRMS) 在 RRMS 中，它可以防止淋巴细胞浸润。进入中枢神经系统，促进髓鞘再生，并对星形胶质细胞发挥神经保护作用。探究芬戈莫德在改善延迟性和持续性 GWVI 相关行为、细胞和根据我们的初步数据，使用高和低的雄性和雌性小鼠的分子中枢神经系统异常。芬戈莫德的剂量将使我们能够区分药物的外周作用和中枢作用。我们将评估其作用。治疗效果：a) 使用特定动物范例评估焦虑、运动、记忆和行为 b) 通过细胞因子组的多重蛋白质组免疫分析测量神经炎症；通过免疫组织化学测定表达 Iba1 和 GFAP 的细胞；c) BDNF 水平和信号传导； ELISA 和免疫组织化学；d) 通过蛋白质印迹测定胆碱能和 GABA 功能的指数；本研究通过全血细胞计数和血清细胞因子检测来测量外周炎症。将合理的药理学与最先进的神经病理学和神经化学技术相结合，以- 结合认知和情感行为评估，推进 GWVI 的治疗策略。