薯蓣皂苷能通过 NF-κB 途径减轻氧化应激和肾脏炎症,从而防止阳离子牛血清白蛋白诱发的膜性肾小球肾炎。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
ACS Applied Electronic Materials Pub Date : 2024-12-01 Epub Date: 2024-03-22 DOI:10.1080/13880209.2024.2330602
Shiyan Jia, Ruihua Si, Guangzhen Liu, Qiming Zhong
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引用次数: 0

摘要

背景:膜性肾小球肾炎(MGN)是导致成人肾病综合征的主要原因。据报道,薯蓣皂苷(DG)具有抗氧化和抗炎作用:研究阳离子牛血清白蛋白诱导的 MGN 大鼠模型中 DG 的肾保护活性:将 40 只雄性 Sprague-Dawley 大鼠随机分为四组。建立 MGN 模型并用 DG 剂量(10 毫克/千克)和阳性对照(TPCA1,10 毫克/千克)治疗,正常对照组和 MGN 组连续四周灌胃蒸馏水。实验结束后,对 24 小时尿蛋白、生化指标、氧化和抗氧化水平、炎症指标、组织病理学检查、免疫组织化学和免疫印迹进行了评估:通过降低尿蛋白(0.56倍)、血清肌酐(SCr)(0.78倍)、尿素氮(BUN)(0.71倍)、总胆固醇(TC)(0.66倍)和总胆固醇(TG)(0.73倍)水平以及增加ALB(1.44倍),DG明显改善了肾功能障碍。DG 还能降低 MDA(0.82 倍)和 NO(0.83 倍)水平,同时提高 SOD(1.56 倍)、CAT(1.25 倍)、谷胱甘肽过氧化物酶(GPx)(1.55 倍)和 GSH(1.81 倍)的活性。此外,DG 还能降低 Keap1(0.76 倍)的表达、Nrf2 的核转位(0.79 倍),并诱导 NQO1(1.25 倍)和 HO-1 (1.46 倍)的表达。此外,DG 还能降低 IL-2(0.55 倍)、TNF-α(0.80 倍)和 IL-6(0.75 倍)水平,减少 NF-κB p65(0.80 倍)、IKKβ(0.93 倍)、p-IKKβ(0.89倍)、ICAM-1(0.88倍)、VCAM-1(0.91倍)、MCP-1(0.88倍)和E-选择素(0.87倍),还抑制了NF-κB p65的核转位(0.64倍):这些结果表明,由于抑制了 NF-κB 通路,DG 对 MGN 有潜在的治疗作用,因此有必要进行进一步的临床试验。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Diosgenin protects against cationic bovine serum albumin-induced membranous glomerulonephritis by attenuating oxidative stress and renal inflammation via the NF-κB pathway.

Context: Membranous glomerulonephritis (MGN) is a leading cause of nephrotic syndrome in adults. Diosgenin (DG) has been reported to exert antioxidative and anti-inflammatory effects.

Objective: To investigate the renoprotective activity of DG in a cationic bovine serum albumin-induced rat model of MGN.

Materials and methods: Fourty male Sprague-Dawley rats were randomized into four groups. The MGN model was established and treated with a DG dose (10 mg/kg) and a positive control (TPCA1, 10 mg/kg), while normal control and MGN groups received distilled water by gavage for four consecutive weeks. At the end of the experiment, 24 h urinary protein, biochemical indices, oxidation and antioxidant levels, inflammatory parameters, histopathological examination, immunohistochemistry and immunoblotting were evaluated.

Results: DG significantly ameliorated kidney dysfunction by decreasing urinary protein (0.56-fold), serum creatinine (SCr) (0.78-fold), BUN (0.71-fold), TC (0.66-fold) and TG (0.73-fold) levels, and increasing ALB (1.44-fold). DG also reduced MDA (0.82-fold) and NO (0.83-fold) levels while increasing the activity of SOD (1.56-fold), CAT (1.25-fold), glutathione peroxidase (GPx) (1.55-fold) and GSH (1.81-fold). Furthermore, DG reduced Keap1 (0.76-fold) expression, Nrf2 nuclear translocation (0.79-fold), and induced NQO1 (1.25-fold) and HO-1 (1.46-fold) expression. Additionally, DG decreased IL-2 (0.55-fold), TNF-α (0.80-fold) and IL-6 (0.75-fold) levels, and reduced protein expression of NF-κB p65 (0.80-fold), IKKβ (0.93-fold), p-IKKβ (0.89-fold), ICAM-1 (0.88-fold), VCAM-1 (0.91-fold), MCP-1 (0.88-fold) and E-selectin (0.87-fold), and also inhibited the nuclear translocation of NF-κB p65 (0.64-fold).

Discussion and conclusions: The results suggest a potential therapeutic benefit of DG against MGN due to the inhibition of the NF-κB pathway, supporting the need for further clinical trials.

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