筛选替米考星诱导的大鼠肝肾毒性的影响:红景天提取物通过氧化应激、抗氧化剂和炎症细胞因子生物标志物的参与提供保护

Salwa A. Elgendy, Mohamed Mohamed Soliman, Mustafa Shukry, Lina Abdelhady Mohammed, Hend Elsayed Nasr, Saad Althobaiti, Daklallah A. Almalki, Khalid S. Alotaibi, Shatha B. Albattal, Heba A. Elnoury
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摘要

替米考星(TIL)是一种半合成大环内酯类抗生素,具有广谱活性,来源于泰乐菌素。TIL 可有效治疗由不同微生物引起的牛和绵羊呼吸道疾病。与此同时,红景天(RHO)因其抗炎和抗氧化特性而成为一种常用的草药。实验持续了 12 天。根据实验组别的不同,动物在 12 天内通过胃管接受蒸馏水或溶于蒸馏水的 RHO 根提取物,并在实验第 6 天皮下注射 500 μL 0.9% 氯化钠或溶于 500 μL 0.9% 氯化钠的 TIL。收集样本和血液用于血清分析、基因表达和肝肾免疫组化筛查。注射 TIL 增加了肝脏和肾脏标志物(ALP、ALT、AST、TC、TG、肌酐和尿素)的血清水平,同时降低了总蛋白水平。同时,TIL 还会诱发肝脏和肾脏氧化应激,因为丙二醛水平升高,过氧化氢酶和还原型谷胱甘肽活性降低。值得注意的是,预先服用 RHO 可抑制 TIL 诱导的肝肾标志物的增加,降低氧化应激,提高肝脏和肾脏的抗氧化活性。定量 RT-PCR 显示,TIL 增加了肝脏 HSP70(热休克蛋白)、NFkB 和 TNF-α mRNA 的表达。此外,TIL 还能上调肾脏中 desmin、nestin 和波形蛋白的表达。在接受 RHO 治疗的保护组中,上调基因的表达明显减少。血清炎症细胞因子和炎症标志物基因在肝组织(HSP70、NFkB 和 TNF-α)和肾组织(desmin、nestin 和波形蛋白)中受到影响--TIL 诱导的肝空泡和充血以及肾小球萎缩。PCNA 和 HMGB1 的免疫活性通过免疫组织化学方法进行了检测。在细胞水平上,注射 TIL 的大鼠 PCNA 降低,而 HMGB1 免疫反应性升高。服用 RHO 可保护肝脏和肾脏组织学的改变。目前的研究结果支持使用 RHO 保护肝脏和肾脏免受替米考星的负面影响。
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Screening impacts of Tilmicosin-induced hepatic and renal toxicity in rats: protection by Rhodiola rosea extract through the involvement of oxidative stress, antioxidants, and inflammatory cytokines biomarkers

Tilmicosin (TIL) is a semisynthetic macrolide antibiotic with a broad spectrum of activity derived from tylosin. TIL is effective in the treatment of bovine and ovine respiratory diseases caused by different microbes. In parallel, Rhodiola rosea (RHO) is a popular herbal remedy because of its anti-inflammatory and antioxidant qualities. The experiment lasted for 12 days. Depending on the experimental group, the animals received either distilled water or RHO root extract dissolved in distilled water for 12 days through a stomach tube, and the single subcutaneous injection on day 6 of the experiment of either 500 μL of 0.9% NaCl or TIL dissolved in 500 μL 0.9% NaCl. Samples and blood were collected for serum analysis, gene expression, and immunohistochemistry screening at liver and kidney levels. TIL injection increased serum levels of hepatic and renal markers (ALP, ALT, AST, TC, TG, creatinine, and urea) with decreased total proteins. In parallel, TIL induced hepatic and renal oxidative stress as there was an increase in malondialdehyde levels, with a decrease in catalase and reduced glutathione activities. Of interest, pre-administration of RHO inhibited TIL-induced increase in hepato-renal markers, decreased oxidative stress, and increased liver and kidney antioxidant activities. Quantitative RT-PCR showed that TIL increased the liver’s HSP70 (heat shock protein), NFkB, and TNF-α mRNA expression. Moreover, TIL upregulated the expression of desmin, nestin, and vimentin expression in the kidney. The upregulated genes were decreased significantly in the protective group that received RHO. Serum inflammatory cytokines and genes of inflammatory markers were affected in liver tissues (HSP70, NFkB, and TNF-α) and kidney tissues (desmin, nestin, and vimentin)—TIL-induced hepatic vacuolation and congestion together with glomerular atrophy. The immunoreactivity of PCNA and HMGB1 was examined immunohistochemically. At cellular levels, PCNA was decreased while HMGB1 immunoreactivity was increased in TIL-injected rats, which was improved by pre-administration of RHO. RHO administration protected the altered changes in liver and renal histology. Current findings support the possible use of RHO to shield the liver and kidney from the negative effects of tilmicosin.

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