托匹司琼通过调节SIRT1/ROCK1信号传导,减轻体外高糖诱导的ARPE-19细胞氧化应激和炎症。

IF 3.5 4区 医学 Q2 CHEMISTRY, MEDICINAL
Mingxia Tang, Wei Liu
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引用次数: 0

摘要

糖尿病视网膜病变(DR)是糖尿病患者后天失明的主要原因。曲匹司琼(TRO)对糖尿病组织有很强的治疗作用。本研究旨在探讨 TRO 对糖尿病条件下视网膜损伤的影响。用高糖(HG)处理人视网膜色素上皮细胞系 ARPE-19 48 小时,模拟高血糖诱导的视网膜损伤,然后用多种浓度的 TRO 进行治疗干预。检测细胞活力和乳酸脱氢酶(LDH)释放量以评估细胞损伤。炎症细胞因子和氧化应激相关因子的产生由相应的商业试剂盒进行评估。细胞凋亡通过末端脱氧核苷酸转移酶介导的 dUTP 缺口标记法进行评估。炎症、细胞凋亡和 SIRT1/ROCK1 相关蛋白的表达采用 Western 印迹分析法进行检测。此外,ARPE-19细胞转染过表达ROCK1(Ov-ROCK1)或预处理SIRT1抑制剂EX527以进行挽救实验。TRO 通过提高细胞活力和减少 LDH 释放减轻了 HG 诱导的 ARPE-19 细胞的细胞损伤。TRO 可部分抑制 HG 引起的 TNF-α、IL-1β 和 IL-6、ROS、丙二醛的过量产生以及超氧化物歧化酶活性的降低。TRO 处理阻碍了 HG 诱导的细胞凋亡,并伴随着促凋亡蛋白的上调和抗凋亡蛋白的下调。HG 导致 ARPE-19 细胞中 SIRT1 的缺失和 ROCK1 的升高,而 TRO 处理后可逆转这种情况。此外,用EX527预处理或转染Ov-ROCK1可部分消除TRO在HG挑战的ARPE-19细胞中对炎症、氧化应激和细胞凋亡的保护作用。通过调节SIRT1/ROCK1轴,TRO对HG引起的ARPE-19细胞炎症、氧化应激和细胞凋亡具有保护作用,这表明TRO可能是缓解DR中视网膜色素上皮细胞损伤的治疗药物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Tropisetron attenuates high glucose-induced oxidative stress and inflammation in ARPE-19 cells in vitro via regulating SIRT1/ROCK1 signaling

Diabetic retinopathy (DR) is the leading cause of acquired blindness in diabetic patients. Tropisetron (TRO) exerts potent therapeutic effects against diabetic tissues. The present study aimed to investigate the effects of TRO on retinal injury under diabetic condition. Human retinal pigment epithelial cell line ARPE-19 was treated with high glucose (HG) for 48 h to mimic hyperglycemia-induced retinal damage and subsequently treated with multiple concentrations of TRO for therapeutic intervention. Cell viability and lactate dehydrogenase (LDH) release were detected to assess cell damage. The production of inflammatory cytokines and oxidative stress-related factors was evaluated by corresponding commercial kits. Cell apoptosis was evaluated by the terminal deoxynucleotidyl transferase-mediated dUTP nick end labeling assay. The expression of inflammation-, apoptosis-, and SIRT1/ROCK1-related proteins was examined using western blot analysis. Additionally, ARPE-19 cells were transfected with over-express ROCK1 (Ov-ROCK1) or pretreatment with SIRT1 inhibitor EX527 to perform the rescue experiments. TRO alleviated cell damage in HG-induced ARPE-19 cells through elevating cell viability and reducing LDH release. HG-caused excessive production of TNF-α, IL-1β and IL-6, ROS, malondialdehyde and decreased superoxide dismutase activity were partly inhibited by TRO treatment. HG-induced cell apoptosis, accompanied with the upregulation of proapoptotic proteins and the downregulation of antiapoptotic proteins, was hindered by TRO treatment. HG led to the loss of SIRT1 and an elevation of ROCK1 in ARPE-19 cells, which was reversed following TRO treatment. Furthermore, pretreatment with EX527 or transfected with Ov-ROCK1 partially abolished the protective role of TRO against inflammation, oxidative stress and cell apoptosis in HG-challenged ARPE-19 cells. TRO exerted a protective role against HG-caused ARPE-19 cells inflammation, oxidative stress and cell apoptosis by regulating SIRT1/ROCK1 axis, suggesting that TRO might be therapeutic agent for alleviating retinal pigment epithelial cell damage in DR.

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来源期刊
CiteScore
6.40
自引率
2.60%
发文量
104
审稿时长
6-12 weeks
期刊介绍: Drug Development Research focuses on research topics related to the discovery and development of new therapeutic entities. The journal publishes original research articles on medicinal chemistry, pharmacology, biotechnology and biopharmaceuticals, toxicology, and drug delivery, formulation, and pharmacokinetics. The journal welcomes manuscripts on new compounds and technologies in all areas focused on human therapeutics, as well as global management, health care policy, and regulatory issues involving the drug discovery and development process. In addition to full-length articles, Drug Development Research publishes Brief Reports on important and timely new research findings, as well as in-depth review articles. The journal also features periodic special thematic issues devoted to specific compound classes, new technologies, and broad aspects of drug discovery and development.
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