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>Luteolin Alleviates Cadmium-Induced Kidney Injury by Inhibiting Oxidative DNA Damage and Repairing Autophagic Flux Blockade in Chickens
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Luteolin Alleviates Cadmium-Induced Kidney Injury by Inhibiting Oxidative DNA Damage and Repairing Autophagic Flux Blockade in Chickens
Chickens are a major source of meat and eggs in human food and have significant economic value. Cadmium (Cd) is a common environmental pollutant that can contaminate feed and drinking water, leading to kidney injury in livestock and poultry, primarily by inducing the generation of free radicals. It is necessary to develop potential medicines to prevent and treat Cd-induced nephrotoxicity in poultry. Luteolin (Lut) is a natural flavonoid compound mainly extracted from peanut shells and has a variety of biological functions to defend against oxidative damage. In this study, we aimed to demonstrate whether Lut can alleviate kidney injury under Cd exposure and elucidate the underlying molecular mechanisms. Renal histopathology and cell morphology were observed. The indicators of renal function, oxidative stress, DNA damage and repair, NAD+ content, SIRT1 activity, and autophagy were analyzed. In vitro data showed that Cd exposure increased ROS levels and induced oxidative DNA damage and repair, as indicated by increased 8-OHdG content, increased γ-H2AX protein expression, and the over-activation of the DNA repair enzyme PARP-1. Cd exposure decreased NAD+ content and SIRT1 activity and increased LC3 II, ATG5, and particularly p62 protein expression. In addition, Cd-induced oxidative DNA damage resulted in PARP-1 over-activation, reduced SIRT1 activity, and autophagic flux blockade, as evidenced by reactive oxygen species scavenger NAC application. The inhibition of PARP-1 activation with the pharmacological inhibitor PJ34 restored NAD+ content and SIRT1 activity. The activation of SIRT1 with the pharmacological activator RSV reversed Cd-induced autophagic flux blockade and cell injury. In vivo data demonstrated that Cd treatment caused the microstructural disruption of renal tissues, reduced creatinine, and urea nitrogen clearance, raised MDA content, and decreased the activities or contents of antioxidants (GSH, T-SOD, CAT, and T-AOC). Cd treatment caused oxidative DNA damage and PARP-1 activation, decreased NAD+ content, decreased SIRT1 activity, and impaired autophagic flux. Notably, the dietary Lut supplement observably alleviated these alterations in chicken kidney tissues induced by Cd. In conclusion, the dietary Lut supplement alleviated Cd-induced chicken kidney injury through its potent antioxidant properties by relieving the oxidative DNA damage-activated PARP-1-mediated reduction in SIRT1 activity and repairing autophagic flux blockade.
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机译:鸡是人类食物中肉类和蛋类的主要来源,具有重要的经济价值。镉 (Cd) 是一种常见的环境污染物,主要通过诱导自由基的产生,污染饲料和饮用水,导致畜禽肾脏损伤。有必要开发潜在的药物来预防和治疗 Cd 诱导的家禽肾毒性。木犀草素 (Lut) 是一种主要从花生壳中提取的天然类黄酮化合物,具有多种抵御氧化损伤的生物功能。在这项研究中,我们旨在证明 Lut 是否可以减轻 Cd 暴露下的肾损伤,并阐明潜在的分子机制。观察肾组织病理学和细胞形态学。分析肾功能、氧化应激、DNA 损伤和修复、NAD+ 含量、SIRT1 活性和自噬等指标。体外数据显示,Cd 暴露会增加 ROS 水平并诱导氧化 DNA 损伤和修复,如 8-OHdG 含量增加、γ-H2AX 蛋白表达增加和 DNA 修复酶 PARP-1 的过度激活所示。Cd 暴露降低了 NAD+ 含量和 SIRT1 活性,增加了 LC3 II、ATG5,尤其是 p62 蛋白表达。此外,Cd 诱导的氧化 DNA 损伤导致 PARP-1 过度激活、SIRT1 活性降低和自噬通量阻断,活性氧清除剂 NAC 应用证明了这一点。药理学抑制剂 PJ34 抑制 PARP-1 激活恢复了 NAD+ 含量和 SIRT1 活性。用药理学激活剂 RSV 激活 SIRT1 逆转了 Cd 诱导的自噬通量阻断和细胞损伤。体内数据表明,Cd 处理导致肾组织的微结构破坏,降低肌酐和尿素氮清除率,提高 MDA 含量,降低抗氧化剂 (GSH、T-SOD、CAT 和 T-AOC) 的活性或含量。Cd 处理导致氧化 DNA 损伤和 PARP-1 激活,NAD+ 含量降低,SIRT1 活性降低,自噬通量受损。值得注意的是,膳食 Lut 补充剂明显缓解了 Cd 诱导的鸡肾组织的这些变化。总之,膳食 LUT 补充剂通过缓解氧化 DNA 损伤激活的 PARP-1 介导的 SIRT1 活性降低和修复自噬通量阻断,通过其强大的抗氧化特性减轻了 Cd 诱导的鸡肾损伤。
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