利用药物再利用策略研究小檗碱、左乙拉西坦及其联合治疗阿尔茨海默病的神经保护作用。

IF 1.3 Q4 PHARMACOLOGY & PHARMACY
Anuradha Singh, Suneela Dhaneshwar, Avijit Mazumder
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引用次数: 6

摘要

目的:应用药物重新定位方法,评价小檗碱、左乙拉西坦及其联合用药对醋酸铅所致神经毒性的神经保护作用。背景:阿尔茨海默病(AD)是一种以记忆障碍、推理、计划、语言和感知障碍为特征的神经退行性疾病。目前,美国fda批准治疗AD的药物只有4种;因此,对新药开发有广泛的需求。药物重新定位方法是指为现有或废弃的药物开发新的用途。一些研究支持抗氧化剂的神经保护能力,导致神经元保护免受神经毒素,抑制氧化应激和促进记忆,学习和认知功能。许多天然多酚正在被研究作为阿尔茨海默病的潜在治疗选择。左乙拉西坦(LEV)是第二代抗癫痫药物,是一种新型分子药物,其药理性质与传统抗癫痫药物有明显区别。LEV先前也被证明可以在几种癫痫模型中防止氧化应激诱导的神经毒性。小檗碱是一种抗炎和抗氧化的植物成分。目的:研究小檗碱、左乙拉西坦及其物理合剂对醋酸铅所致瑞士白化小鼠神经毒性的治疗作用,以期在阿尔茨海默病的治疗中应用。方法:采用醋酸铅致瑞士白化小鼠神经毒性实验。采用Morris水迷宫(MWM)、高程迷宫(EPM)和y型迷宫(Y-maze)评估学习和记忆改善的行为参数,如转移延迟时间和百分比交替。测定脑内乙酰胆碱酯酶、丙二醛和谷胱甘肽的浓度。脑样本进行组织病理学研究。结果:结果显示,BBR和LEV联合使用可减少MWM的逃避潜伏期,增加靶象限的停留时间,具有明显的神经保护作用。与标准的多奈哌齐相比,该组合还减少了EPM的转移潜伏期和大脑中的乙酰胆碱酯酶水平。组织病理学报告也证实了神经元损伤的减少。结论:左曲西坦与小檗碱及其联用对小鼠行为学、生化、酶学和抗氧化等指标均有显著的保护作用。普通左曲西坦与小檗碱的神经保护作用明显优于单用。左曲西坦与小檗碱联用在醋酸铅诱导的神经毒性中未观察到预期的协同作用或加性效应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigating Neuroprotective Potential of Berberine, Levetiracetam and their Combination in the Management of Alzheimer's Disease Utilizing Drug Repurposing Strategy.

Aim: The aim of the present work was to evaluate the neuroprotective potential of berberine, levetiracetam and their combination in lead acetate-induced neurotoxicity by applying a drug repositioning approach.

Background: Alzheimer's disease (AD) is a neurodegenerative disease characterized by impairment of memory, disturbances in reasoning, planning, language and perception. Currently, there are only four drugs approved by US-FDA for AD; therefore, there is an extensive need for new drug development. The drug repositioning approach refers to the development of new uses for existing or abandoned pharmaceuticals. Several studies support the neuroprotective abilities of anti-oxidants resulting in neuronal protection against neurotoxins, suppression of oxidative stress and promotion of memory, learning and cognitive functions. Many natural polyphenols are being investigated as a potential therapeutic option for AD. Levetiracetam (LEV), a second-generation antiepileptic drug, is a new molecule that is clearly differentiated from conventional antiepileptic drugs by its pharmacologic properties. LEV also has been previously demonstrated to protect against oxidative stress-induced neurotoxicity in several models of seizures. Berberine (BBR) is an anti-inflammatory and anti-oxidant phytoconstituent.

Objective: To study the therapeutic effect of berberine, levetiracetam and their physical mixture in lead acetate-induced neurotoxicity in Swiss albino mice for probable application in the management of Alzheimer's disease.

Methods: Neurotoxicity was induced in Swiss albino mice by lead acetate. Behavioural parameters, such as transfer latency time and percentage alternation, were studied using Morris water maze (MWM), Elevated plus-maze test (EPM) and Y-maze for the assessment of improvement in learning and memory. Concentrations of acetylcholinesterase, MDA and GSH in the brain were also estimated. Brain samples were subjected to histopathological studies.

Results: Results revealed that the combination of BBR and LEV exhibited a significant neuroprotective effect by decreasing escape latency time and increasing time spent in the target quadrant in MWM. The combination also decreases transfer latency time in EPM and acetylcholinesterase levels in the brain as compared to standard donepezil. Reduced neuronal damage was also confirmed by the histopathological report.

Conclusion: Leveteracitam, berberin and their combination resulted in the significant conservation of various behavioural, biochemical, enzymatic and anti-oxidant parameters that were evaluated. The neuroprotective effect of plain leveteracitam and berberin was significantly better than their combination. The anticipated synergism or additive effect was not observed with the combination of leveteracitam and berberin in lead acetate-induced neurotoxicity.

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