小肠耶尔森菌和发酵乳杆菌喂养大鼠模型中双氯芬酸诱导的肝脏毒性的蛋白质组图谱、生化和组织学分析:比较分析。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-10-01 Epub Date: 2024-07-10 DOI:10.1007/s10529-024-03510-2
Shruti Ahlawat, Hari Mohan, Krishna Kant Sharma
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引用次数: 0

摘要

双氯芬酸是一种具有肝毒性的非甾体抗炎药(NSAID),会影响肝脏组织学及其蛋白质表达水平。在此,我们研究了双氯芬酸与小肠结肠炎耶尔森菌株 8081 血清型 O:8 生物变种 1B(D*Y)或发酵乳杆菌株 9338(D*L)共同给药时对大鼠肝脏的影响。粪便样本的光谱分析显示了双氯芬酸的生物转化。与对照组相比,D*Y 大鼠缺乏 1709 和 1198 cm-1 的峰值,而 D*L 大鼠缺乏 1411 cm-1 的峰值。然而,与对照组相比,两组大鼠都缺少 1379 和 1170 cm-1 的峰值。肝毒性血清生物标志物的评估表明,AST(D*Y:185.65 ± 8.575 vs 对照组:61.9 ± 2.607;D*L:247.5 ± 5.717 vs 对照组:61.9 ± 2.607)、ALT(D*Y:229.8 ± 6.920 vs 对照组:70.7 ± 3.109,D*L:123.75 ± 6.068 vs 对照组:70.7 ± 3.109),ALP(D*Y:276.4 ± 18.154 vs 对照组:320.6 ± 9.829,D*L:298.5 ± 12.336 vs 对照组:320.6 ± 9.829),单位为 IU/L。对组织学变化的分析表明,D*Y 大鼠的肝窦扩张、静脉充血和细胞浸润以及其他组织学变化是两个试验组共有的,因此表明 D*Y 大鼠的组织学变化更为明显。此外,基于 LC-MS/MS 的肝组织蛋白质无标记定量分析显示,在 D*Y 大鼠中,74.75% 的蛋白质上调,25.25% 的蛋白质下调;在 D*L 实验中,51.16% 的蛋白质上调,48.84% 的蛋白质下调。蛋白质组学发现的蛋白质主要属于新陈代谢、细胞凋亡、应激反应和氧化还原稳态以及解毒和抗氧化防御等领域,表明大鼠肝脏可能受到损伤,D*Y 大鼠的损伤更为明显。总之,研究结果表明,服用乳酸菌在一定程度上保护了大鼠肝细胞免受双氯芬酸诱导的毒性影响。
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Proteome profiling, biochemical and histological analysis of diclofenac-induced liver toxicity in Yersinia enterocolitica and Lactobacillus fermentum fed rat model: a comparative analysis.

Diclofenac is a hepatotoxic non-steroidal anti-inflammatory drug (NSAID) that affects liver histology and its protein expression levels. Here, we studied the effect of diclofenac on rat liver when co-administrated with either Yersinia enterocolitica strain 8081 serotype O:8 biovar 1B (D*Y) or Lactobacillus fermentum strain 9338 (D*L). Spectroscopic analysis of stool samples showed biotransformation of diclofenac. When compared with each other, D*Y rats lack peaks at 1709 and 1198 cm-1, while D*L rats lack peaks at 1411 cm-1. However, when compared to control, both groups lack peaks at 1379 and 1170 cm-1. Assessment of serum biomarkers of hepatotoxicity indicated significantly altered activities of AST (D*Y: 185.65 ± 8.575 vs Control: 61.9 ± 2.607, D*L: 247.5 ± 5.717 vs Control: 61.9 ± 2.607), ALT (D*Y: 229.8 ± 6.920 vs Control: 70.7 ± 3.109, D*L: 123.75 ± 6.068 vs Control: 70.7 ± 3.109), and ALP (D*Y: 276.4 ± 18.154 vs Control: 320.6 ± 9.829, D*L: 298.5 ± 12.336 vs Control: 320.6 ± 9.829) in IU/L. The analysis of histological alterations showed hepatic sinusoidal dilation with vein congestion and cell infiltration exclusively in D*Y rats along with other histological changes that are common to both test groups, thereby suggesting more pronounced alterations in D*Y rats. Further, LC-MS/MS based label-free quantitation of proteins from liver tissues revealed 74.75% up-regulated, 25.25% down-regulated in D*Y rats and 51.16% up-regulated, 48.84% down-regulated in D*L experiments. The proteomics-identified proteins majorly belonged to metabolism, apoptosis, stress response and redox homeostasis, and detoxification and antioxidant defence that demonstrated the potential damage of rat liver, more pronounced in D*Y rats. Altogether the results are in favor that the administration of lactobacilli somewhat protected the rat hepatic cells against the diclofenac-induced toxicity.

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ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
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464
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