Centre of Excellence in Unani Medicine (Pharmacognosy & Pharmacology), Jamia Hamdard, New Delhi, 110062, India; Bioactive Natural Product Laboratory, School of Pharmaceutical Education and Research, Jamia Hamdard, New Delhi, 110062, India; Department of Food Technology, School of Interdisciplinary Science and Technology, Jamia Hamdard, New Delhi, 110062, India.
Centre of Excellence in Unani Medicine (Pharmacognosy & Pharmacology), Jamia Hamdard, New Delhi, 110062, India; Bioactive Natural Product Laboratory, School of Pharmaceutical Education and Research, Jamia Hamdard, New Delhi, 110062, India.
J Ethnopharmacol. 2024 Jan 10;318(Pt A):116900. doi: 10.1016/j.jep.2023.116900. Epub 2023 Jul 11.
Sharbat-e-bazoori Motadil (SBM) is a polyherbal formulation that have been used for centuries as a part of the Unani system of medicine for renal disease.
The objective of this study was to explore and validate the nephroprotective potential of sugar-free SBM (SF-SBM) and its mechanisms of action against sodium fluoride (NaF)-induced nephrotoxicity in HEK-293 cells. Additionally, the study aimed to assess the quality control of SF-SBM and investigate its effects using an in vivo rat model with pattern recognition following oral administration of SF-SBM.
The nephroprotective effect of SF-SBM was investigated using both an HEK-293 cell line and Wistar rats. Nephrotoxicity was induced in these models by administering NaF at a concentration of 600 ppm (parts per million) for a duration of seven days. The SF-SBM formulation was standardized using high-performance thin-layer chromatography (HPTLC) to assess the presence of marker compounds, namely gallic acid, quercetin, and ferulic acid. Metabolite characterization of SF-SBM was carried out using ultra-high-performance liquid chromatography mass spectrometry (UPLC-MS) with a monolithic capillary silica-based C18 column. This analytical technique allowed for the identification of bioactive substances and verification of the identified markers. Acute toxicity of SF-SBM was evaluated in Wistar rats by administering a single oral dose of 2000 mg/kg of SF-SBM. The nephroprotective efficacy of SF-SBM was further assessed at low (LD), medium (MD) and high (HD) doses of 32.1, 64.2, and 128.4 mg/kg, respectively, administered orally. Nephrotoxicity was induced in Wistar rats by adding NaF to their drinking water for seven days. Biochemical and urine markers were analyzed to evaluate the antioxidant, inflammatory, and apoptotic potential of SF-SBM. Additionally, histopathological analysis and immunohistochemical alterations in the expression of caspase-3 and nicotinamide adenine dinucleotide phosphate (NADPH) oxidase-4 (NOX-4) in kidney tissue were performed to confirm the findings of the in vivo experiments. Furthermore, in vivo pattern recognition of SF-SBM metabolites, identified through GC-MS metabolomics, and in-silico docking analysis of major metabolites in plasma were conducted to gain further insights.
Phytochemical analysis using HPTLC, TLC-bioautography, and UPLC-MS revealed the presence of several bioactive constituents in SF-SBM, including ferulic acid, gallic acid (GA), ellagic acid, quercetin, and apigenin. These compounds exhibit diverse pharmacological properties. In vitro studies demonstrated the protective effect of SF-SBM on HEK-293 cell line against nephrotoxicity. The acute toxicity study of SF-SBM at a dose of 2000 mg/kg showed no mortality or signs of toxicity throughout the 14-day observation period. In the in vivo studies, administration of NaF resulted in significant elevation (P < 0.001) of biochemical and urine parameters, indicating oxidative, inflammatory, and apoptotic stress. Histopathological examination revealed severe depletion of Bowman's capsule, and immunohistochemistry demonstrated negative immunostaining for caspase-3 and reduced NOX-4 reactions. Pre-treatment with SF-SBM significantly attenuated the elevated biochemical and urine markers, restored the antioxidant enzyme levels (such as SOD, CAT, GSH, GPx and NO), and regulated the expression of inflammatory cytokines (TNF-α, IL-1β, CASP-3) in kidney tissue at doses of SF-SBM-MD (64.2 mg/kg) and SF-SBM-HD (128.4 mg/kg), showing comparable results to those of α-Ketoanalogue. Histopathological assessment demonstrated improvements in tissue damage. Pattern recognition analysis of SF-SBM identified the presence of 56 metabolites at different time intervals. Additionally, in-silico studies revealed strong interactions of SF-SBM with a binding energy of -6.5 and -5.6 kcal for 4C2N.
The phytoconstituents present in SF-SBM play a crucial role in its nephroprotective action by acting as potent antioxidants and reducing proinflammatory and apoptotic damage in rat cells. This indicates that SF-SBM has promising potential for the treatment of nephrotoxicity.
Sharbat-e-bazoori Motadil(SBM)是一种草药配方,几个世纪以来一直被用于顺势疗法医学治疗肾脏疾病。
本研究的目的是探索和验证无糖 SBM(SF-SBM)的肾保护潜力及其在体外细胞模型中对抗氟酸钠(NaF)诱导的肾毒性的作用机制。此外,还评估了 SF-SBM 的质量控制,并通过口服 SF-SBM 后进行模式识别的体内大鼠模型来研究其效果。
使用 HEK-293 细胞系和 Wistar 大鼠来研究 SF-SBM 的肾保护作用。通过在 7 天内给予 600 ppm(百万分之几)的 NaF 来诱导这些模型的肾毒性。使用高效薄层色谱(HPTLC)对 SF-SBM 制剂进行标准化,以评估存在的标记化合物,即没食子酸、槲皮素和阿魏酸。使用超高效液相色谱质谱联用(UPLC-MS)与单孔毛细管硅基 C18 柱对 SF-SBM 进行代谢物特征分析。这种分析技术可以识别生物活性物质并验证鉴定的标记物。通过给予 Wistar 大鼠单次口服 2000 mg/kg 的 SF-SBM 来评估 SF-SBM 的急性毒性。进一步在低(LD)、中(MD)和高(HD)剂量下(分别为 32.1、64.2 和 128.4 mg/kg)口服 SF-SBM,评估 SF-SBM 的肾保护功效。通过在 7 天内向 Wistar 大鼠饮用水中添加 NaF 来诱导肾毒性。分析生化和尿液标志物,以评估 SF-SBM 的抗氧化、炎症和凋亡潜力。此外,进行组织病理学分析和免疫组织化学分析,以验证 caspase-3 和烟酰胺腺嘌呤二核苷酸磷酸(NADPH)氧化酶-4(NOX-4)在肾组织中的表达变化。此外,通过 GC-MS 代谢组学对 SF-SBM 代谢物进行体内模式识别,并对血浆中的主要代谢物进行计算机模拟对接分析,以进一步深入了解。
使用 HPTLC、TLC-生物自显影和 UPLC-MS 进行植物化学分析,结果表明 SF-SBM 中存在几种生物活性成分,包括阿魏酸、没食子酸(GA)、鞣花酸、槲皮素和芹菜素。这些化合物具有多种药理特性。体外研究表明 SF-SBM 对 HEK-293 细胞系具有保护作用,可对抗肾毒性。SF-SBM 的急性毒性研究表明,在 2000 mg/kg 的剂量下,在 14 天的观察期内没有死亡或毒性迹象。在体内研究中,给予 NaF 导致生化和尿液参数显著升高(P < 0.001),表明存在氧化、炎症和凋亡应激。组织病理学检查显示鲍曼氏囊严重耗竭,免疫组织化学显示 caspase-3 免疫染色阴性,NOX-4 反应减少。SF-SBM 预处理可显著降低升高的生化和尿液标志物,恢复抗氧化酶水平(如 SOD、CAT、GSH、GPx 和 NO),并调节肾组织中炎症细胞因子(TNF-α、IL-1β、CASP-3)的表达,在 SF-SBM-MD(64.2 mg/kg)和 SF-SBM-HD(128.4 mg/kg)剂量下,结果与α-酮类似物相似。组织病理学评估显示组织损伤得到改善。SF-SBM 的模式识别分析在不同时间间隔内鉴定出 56 种代谢物。此外,计算机模拟研究表明 SF-SBM 与 4C2N 的结合能为-6.5 和-5.6 kcal/mol 具有很强的相互作用。
SF-SBM 中的植物成分通过作为有效的抗氧化剂发挥作用,减少大鼠细胞中的促炎和凋亡损伤,从而在其肾保护作用中发挥关键作用。这表明 SF-SBM 具有治疗肾毒性的潜力。
