通过差异基因表达和通路分析探讨Ashwagandha植物化合物治疗癫痫的分子机制

Q4 Biochemistry, Genetics and Molecular Biology
Srivarshini Govinda Srinivasan, Susha Dinesh, Sameer Sharma, Bhavana Sunkadakatte Venugopal, Martin Lucas A., Dinesh Sosalagere Manjegowda
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摘要

简介和目的:Withania somnifera (Ashwagandha)是一种传统的印度草药,用于阿育吠陀和乌纳尼医学,特别是在抗炎,抗癌,抗压力,抗氧化,增强免疫力和恢复活力的效果。癫痫是一种严重的神经心理疾病,偶尔发生,对脑细胞之间的电信号传输有长期影响。这种疾病的特点是由脑电活动突然增加引起的反复发作。这是异常的神经元放电或协调的神经元高兴奋性的结果。本研究的主要目的是寻找治疗癫痫性疾病的植物化合物。材料和方法:本研究探讨了从Ashwagandha植物中提取的植物化学物质作为癫痫发作治疗的潜在用途,这些化学物质针对与该病强烈相关的关键基因。为了预测植物化学物质与受体之间的结合亲和力,采用分子对接模拟(PyRx)进行虚拟筛选。结果:根据对癫痫的亲和力初步筛选了22种苦参化合物。结果表明,withasomnine对受体表现出很强的结合亲和力,表明它们有潜力作为靶向癫痫发作治疗药物。这些配体与癫痫靶点结合较强,结合评分小于-7 kcal/mol可考虑进一步探索。这项研究为即将进行的体外和体内研究奠定了基础,以确认这些植物化学物质作为癌症治疗的有效性。结论:withasomnine衍生物是一种很有前景的治疗癫痫的药物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigating the molecular mechanisms of Ashwagandha phytocompounds in epilepsy through differential gene expression and pathway analysis
Introduction and Aim: Withania somnifera (Ashwagandha) is a traditional Indian herb used in Ayurveda and Unani medicine, particularly in anti-inflammatory, anti-cancer, anti-stress, antioxidant, immune-boosting, and rejuvenating effects. Epilepsy is a severe neuropsychological condition that occurs sporadically and has a long-term effect on the electrical signals that travel between brain cells. The disorder is characterized by recurrent seizures that are brought on by a sudden increase in brain electrical activity. This is the outcome of abnormal neuronal discharges or coordinated neuronal hyperexcitability. The study’s main objective is to find out the therapeutic phytocompound in treating Epileptic disorder. Materials and Methods: This study investigated the potential use of phytochemicals from the Ashwagandha plant as epileptic seizure treatments that target key genes strongly associated with the disease. To forecast the binding affinity between the phytochemicals and the receptors, molecular docking simulations (PyRx) were used for the virtual screening. Results: The preliminary screening of the twenty-two phytocompounds from Withania somnifera was based on their affinity for epilepsy. The results showed that withasomnine exhibited great binding affinity to the receptors, indicating their potential as targeted epileptic seizure therapeutics. The ligands revealed stronger binding with the epilepsy targets, and the binding score less than -7 kcal/mol was taken into consideration for further exploration. This research lays the groundwork for upcoming in-vitro and in-vivo studies to confirm the effectiveness of these phytochemicals as cancer therapies. Conclusion: The results suggest that withasomnine derivatives from Withania somnifera could be a promising source of epilepsy therapies.
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来源期刊
Biomedicine (India)
Biomedicine (India) Biochemistry, Genetics and Molecular Biology-Biochemistry, Genetics and Molecular Biology (all)
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