Cerebroprotective Potential of Andrographolide Nanoparticles: In silico and In vivo Investigations.

IF 1.7 Q3 PHARMACOLOGY & PHARMACY

Drug Research Pub Date : 2024-07-11 DOI:10.1055/a-2345-5396

Lakshmi Charitha Rudrala, Ranadheer Reddy Challa, Sibbala Subramanyam, Sampath Ayyappa Gouru, Gagandeep Singh, N V L Sirisha Mulukuri, Praveen Kumar Pasala, Prasanth Sree Naga Bala Krishna Dintakurthi, Somasekhar Gajula, Mithun Rudrapal

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引用次数: 0

Abstract

Ischemic stroke remains the leading cause of death and disability, while the main mechanisms of dominant neurological damage in stroke contain oxidative stress and inflammation. Docking studies revealed a binding energy of - 6.1 kcal/mol for AG, while the co-crystallized ligand (CCl) exhibited a binding energy of - 7.3 kcal/mol with NOS. AG demonstrated favourable hydrogen bond interactions with amino acids ASN A:354 and ARG A:388 and hydrophobic interactions with GLU A:377. Molecular dynamics simulations throughout 100 ns indicated a binding affinity of - 27.65±2.88 kcal/mol for AG, compared to - 18.01±4.02 kcal/mol for CCl. These findings suggest that AG possesses a superior binding affinity for NOS compared to CCl, thus complementing the stability of NOS at the docked site.AG has limited applications owing to its low bioavailability, poor water solubility, and high chemical and metabolic instability.The fabrication method was employed in the preparation of AGNP, SEM analysis confirmed spherical shape with size in 19.4±5 nm and investigated the neuroprotective effect in cerebral stroke rats induced by 30 min of carotid artery occlusion followed by 4 hr reperfusion, evaluated by infarction size, ROS/RNS via GSH, MPO, NO estimationand AchE activity, and monitoring EEG function. Cortex and hippocampal histology were compared between groups. AGNP treatment significantly decreased Infarction size and increased GSH levels (p<0.01^**), decreased MPO (p<0.01^**), NO (p<0.01^**), AchE (p<0.01^**), restored to normal EEG amplitude, minimizing unsynchronized polyspikes and histological data revealed that increased pyramidal cell layer thickness and decreased apoptotic neurons in hippocampus, cortex appeared normal neurons with central large vesicular nuclei, containing one or more nucleoli in compared to AG treatment. Based on brain biochemical, histopathology reports AGNP exhibited significant cerebroprotective activity compared to AG on ischemic rats.

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穿心莲内酯纳米颗粒的脑保护潜力：硅学和体内研究。

缺血性中风仍然是导致死亡和残疾的主要原因，而中风的主要神经损伤机制包括氧化应激和炎症。对接研究显示，AG 的结合能为 - 6.1 kcal/mol，而共晶体配体（CCl）与 NOS 的结合能为 - 7.3 kcal/mol。AG 与氨基酸 ASN A:354 和 ARG A:388 存在有利的氢键相互作用，与 GLU A:377 存在疏水相互作用。分子动力学模拟（100 ns）表明，AG 的结合亲和力为 - 27.65±2.88 kcal/mol，而 CCl 的结合亲和力为 - 18.01±4.02 kcal/mol。这些研究结果表明，与 CCl 相比，AG 与 NOS 的结合亲和力更强，从而补充了 NOS 在对接位点上的稳定性。AG 的生物利用度低、水溶性差、化学和代谢不稳定性高，因此应用范围有限。采用该制备方法制备了 AGNP，经 SEM 分析证实其为球形，大小为 19.4±5 nm，并研究了其对颈动脉闭塞 30 分钟后再灌注 4 小时诱导的脑卒中大鼠的神经保护作用，通过梗塞大小、ROS/RNS（通过 GSH、MPO）、NO 估计值和 AchE 活性进行评估，并监测脑电图功能。对各组的皮层和海马组织学进行比较。与AG治疗相比，AGNP治疗可明显减少脑梗塞面积，提高GSH水平（p***），降低MPO（p***）、NO（p***）和AchE（p***），恢复正常的脑电图振幅，减少不同步的多尖波，组织学数据显示海马锥体细胞层厚度增加，凋亡神经元减少，皮层出现正常神经元，中央有大泡核，含有一个或多个核小体。根据脑生化和组织病理学报告，与 AG 相比，AGNP 对缺血大鼠具有显著的脑保护活性。

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来源期刊

Drug Research PHARMACOLOGY & PHARMACY-

CiteScore

3.50

自引率

0.00%

发文量

期刊介绍： Drug Research (formerly Arzneimittelforschung) is an international peer-reviewed journal with expedited processing times presenting the very latest research results related to novel and established drug molecules and the evaluation of new drug development. A key focus of the publication is translational medicine and the application of biological discoveries in the development of drugs for use in the clinical environment. Articles and experimental data from across the field of drug research address not only the issue of drug discovery, but also the mathematical and statistical methods for evaluating results from industrial investigations and clinical trials. Publishing twelve times a year, Drug Research includes original research articles as well as reviews, commentaries and short communications in the following areas: analytics applied to clinical trials chemistry and biochemistry clinical and experimental pharmacology drug interactions efficacy testing pharmacodynamics pharmacokinetics teratology toxicology.

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