急性神经炎症改变了治疗模型蛋白质从大脑向淋巴和血液的运输

IF 5.4 3区 材料科学 Q2 CHEMISTRY, PHYSICAL ACS Applied Energy Materials Pub Date : 2024-10-07 Epub Date: 2024-08-26 DOI:10.1021/acs.molpharmaceut.4c00516
Thu A Hoang, Liang Jin, Joseph A Nicolazzo, Natalie L Trevaskis
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引用次数: 0

摘要

在存在神经炎症的多发性硬化症、阿尔茨海默病和帕金森病小鼠模型中,液体和溶质沿着淋巴途径从大脑排出的功能受到了损害。我们最近在健康大鼠颈部淋巴插管模型中证实,3H-白蛋白(一种治疗蛋白模型(65 kDa))可优先从大脑淋巴转运。因此,我们假设神经炎症会阻碍 3H-albumin 从大脑的淋巴转运。我们的目的是量化急性神经炎症对治疗模型蛋白(3H-白蛋白)从大鼠大脑排入血液和颈深淋巴的影响。为建立所需的神经炎症模型,给雄性 Sprague-Dawley 大鼠腹腔注射(IP)剂量为 0.5-2 mg/kg 的脂多糖(LPS,大肠杆菌)或生理盐水对照。12 或 24 小时后,收集大脑样本并使用商用酶联免疫吸附试验(ELISA)试剂盒分析γ干扰素(IFN-γ)的浓度。神经炎症对脑部排出 3H-albumin 的影响是通过给大鼠 IP 注射 2 mg/kg LPS 或生理盐水来确定的,然后在 24 小时后插管颈动脉采血,并在颈深淋巴干传出处插管或结扎。然后将 3H-albumin 直接注射到大鼠脑纹状体或通过静脉注射给大鼠注射 3H-albumin (仅淋巴接触组)。给药后最长 8 小时收集血液和淋巴样本。研究结束时,采集脑和淋巴结样本进行生物分布分析,通过闪烁计数分析样本的放射性水平。与生理盐水对照组相比,促炎细胞因子 IFN-γ 的脑浓度仅在 IP 注射 2 毫克/千克 LPS 24 小时后显著升高。因此,随后的研究采用了这种诱导方案。与注射生理盐水的大鼠相比,淋巴未触及组和淋巴结扎组淋巴诱导大鼠的血浆中3H-白蛋白浓度随时间推移而升高,但淋巴封管组没有升高。在深颈部淋巴封闭动物中,3H-白蛋白的淋巴转运没有增加,而且在注射 LPS 的大鼠中似乎更慢。因此,急性 LPS 引起的神经炎症导致 3H-albumin 从大脑进入全身循环的总体运输量增加。这似乎主要是由于 3H-albumin 从大脑直接进入血液循环的转运增加了,因为在 LPS 诱导的神经炎症模型中,3H-albumin 从大脑通过淋巴管的转运并没有增加。在神经炎症的情况下,治疗蛋白从大脑清除的这种变化可能会影响疗效和安全性。
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Acute Neuroinflammation Alters the Transport of a Model Therapeutic Protein from the Brain into Lymph and Blood.

The drainage of fluid and solutes along lymphatic pathways from the brain has been found to be impaired in mouse models of multiple sclerosis, Alzheimer's disease, and Parkinson's disease where neuroinflammation is present. We recently demonstrated that 3H-albumin, a model therapeutic protein (∼65 kDa), undergoes preferential lymphatic transport from the brain using a cervical lymph cannulation model in healthy rats. We thus hypothesized that neuroinflammation would impede the lymphatic transport of 3H-albumin from the brain. Our aim was to quantify the impact of acute neuroinflammation on drainage of the model therapeutic protein (3H-albumin) from the rat brain into blood and deep cervical lymph. To establish the required neuroinflammation model, male Sprague-Dawley rats were administered an intraperitoneal (IP) dose of 0.5-2 mg/kg lipopolysaccharide (LPS, Escherichia coli) or a saline control. After 12 or 24 h, brain samples were collected and analyzed for concentrations of interferon gamma (IFN-γ) using a commercial enzyme-linked immunosorbent assay (ELISA) kit. The impact of neuroinflammation on the drainage of 3H-albumin from the brain was determined via IP administration of 2 mg/kg LPS or saline followed by cannulation of the carotid artery for blood collection 24 h later with/without cannulation or ligation at the efferent deep cervical lymph trunk. Rats were then administered 3H-albumin via direct injection into the brain striatum or via intravenous (IV) injection (lymph-intact group only). Blood ± lymph samples were collected for up to 8 h following dosing. At the end of the study, brain and lymph node samples were harvested for biodistribution analysis, with samples analyzed for radioactivity levels via scintillation counting. Brain concentrations of the pro-inflammatory cytokine IFN-γ were only significantly elevated 24 h after IP administration of 2 mg/kg LPS compared to saline control. Therefore, this induction regimen was utilized for subsequent studies. The plasma concentrations of 3H-albumin over time were elevated in LPS-induced rats compared to saline-injected rats in the lymph-intact and lymph-ligated groups but not in the lymph-cannulated group. In the deep cervical lymph-cannulated animals, the lymph transport of 3H-albumin was not increased and appeared to be slower in the LPS-administered rats. Acute LPS-induced neuroinflammation therefore led to an enhanced overall transport of 3H-albumin from the brain into the systemic circulation. This appeared to be primarily due to increased transport of 3H-albumin from the brain directly into the blood circulation as 3H-albumin transport from the brain via the lymphatics was not increased in the LPS-induced neuroinflammation model. Such changes in the clearance of therapeutic proteins from the brain in the setting of neuroinflammation may impact the therapeutic efficacy and safety.

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来源期刊
ACS Applied Energy Materials
ACS Applied Energy Materials Materials Science-Materials Chemistry
CiteScore
10.30
自引率
6.20%
发文量
1368
期刊介绍: ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.
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