Ligustrazine protects against chronic hypertensive glaucoma in rats by inhibiting autophagy via the PI3K-Akt/mTOR pathway.

IF 1.8 3区 医学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY
Molecular Vision Pub Date : 2021-12-12 eCollection Date: 2021-01-01
Hong-Yan Du, Rong Wang, Jian-Liang Li, Huang Luo, Xiao-Yan Xie, Ran Yan, Yue-Ling Jian, Jin-Ying Cai
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引用次数: 0

Abstract

Purpose: Glaucoma is a leading cause of global irreversible blindness, and characterized by the progressive loss of retinal ganglion cells (RGCs). Ligustrazine (TMP) is a natural product that has shown beneficial effects on various diseases. This study aimed to determine whether ligustrazine produces a therapeutic effect on glaucoma and to investigate its underlying mechanisms.

Methods: A rat chronic hypertensive glaucoma model was induced by episcleral vein cauterization (EVC). Adult Sprague-Dawley (SD) rats were intraperitoneally administered TMP at a dose of 80 mg/kg once a day, from two days before EVC to one month after EVC. To elucidate the role of the mammalian target of rapamycin (mTOR) and phosphoinositide 3-kinase (PI3K), TMP-treated experimental rats were co-treated with the mTOR inhibitor rapamycin (5 mg/kg) or the PI3K inhibitor Ly294002 (10 mg/kg). The intraocular pressure (IOP) of the experimental and control rats was measured every six days. Retinal cells were examined by hematoxylin-eosin and terminal deoxynucleotidyltransferase-mediated biotinylated UTP nick end labeling (TUNEL) staining, as well as transmission electron microscopy. Immunohistochemistry and western blot analysis were performed to measure proteins involved in apoptosis and autophagy.

Results: Ligustrazine protected retinal cells from death in experimental glaucoma rats, which was not due to the lowering of IOP, but could be attributable to direct suppression of retinal cell apoptosis. In glaucoma rats, autophagy was markedly activated in retina cells, as evidenced by increased numbers of autophagosomes and the expression of autophagy-related proteins (ATG5 and LC3-II/I). Notably, such alterations in glaucoma rats were almost completely reversed by ligustrazine. The suppressive effects of ligustrazine on apoptosis and autophagy of retina cells were markedly attenuated by the mTOR inhibitor rapamycin or the PI3K inhibitor Ly294002. Additionally, ligustrazine significantly increased the protein levels of phosphorylated PI3K (p-PI3K), protein kinase B (p-Akt), and mTOR (p-mTOR) in glaucoma rats, whereas such increases were attenuated by rapamycin or Ly294002.

Conclusions: These results demonstrate that ligustrazine is protective in experimental glaucoma by inhibiting autophagy via the activation of the PI3K-Akt/mTOR pathway, providing compelling evidence that ligustrazine is potentially therapeutic for patients with glaucoma.

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川芎嗪通过PI3K-Akt/mTOR通路抑制自噬,对大鼠慢性高血压性青光眼具有保护作用。
目的:青光眼是全球不可逆失明的主要原因,其特征是视网膜神经节细胞(RGCs)的进行性丧失。川芎嗪(川芎嗪)是一种天然产物,对多种疾病有良好的疗效。本研究旨在确定川芎嗪是否对青光眼产生治疗作用并探讨其潜在机制。方法:采用巩膜外静脉烧灼法(EVC)建立大鼠慢性高血压性青光眼模型。从EVC前2天至EVC后1个月,成年SD大鼠按80 mg/kg的剂量腹腔注射TMP,每天1次。为了阐明哺乳动物靶蛋白雷帕霉素(mTOR)和磷酸肌肽3激酶(PI3K)的作用,将tmp处理的实验大鼠与mTOR抑制剂雷帕霉素(5 mg/kg)或PI3K抑制剂Ly294002 (10 mg/kg)共同处理。每6 d测定实验组大鼠和对照组大鼠的眼压。采用苏木精-伊红和末端脱氧核苷酸转移酶介导的生物素化UTP缺口端标记(TUNEL)染色以及透射电镜检查视网膜细胞。免疫组织化学和western blot检测细胞凋亡和自噬相关蛋白。结果:川芎嗪对实验性青光眼大鼠视网膜细胞的保护作用不是由于降低IOP,而可能是直接抑制视网膜细胞凋亡。青光眼大鼠视网膜细胞的自噬被明显激活,自噬小体数量增加,自噬相关蛋白(ATG5和LC3-II/I)表达增加。值得注意的是,川芎嗪几乎完全逆转了青光眼大鼠的这种改变。mTOR抑制剂雷帕霉素或PI3K抑制剂Ly294002可明显减弱川芎嗪对视网膜细胞凋亡和自噬的抑制作用。此外,川芎嗪显著增加青光眼大鼠磷酸化PI3K (p-PI3K)、蛋白激酶B (p-Akt)和mTOR (p-mTOR)的蛋白水平,而雷帕霉素或Ly294002可减弱这种增加。结论:这些结果表明,川芎嗪通过激活PI3K-Akt/mTOR通路抑制自噬,对实验性青光眼具有保护作用,为川芎嗪治疗青光眼提供了强有力的证据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Molecular Vision
Molecular Vision 生物-生化与分子生物学
CiteScore
4.40
自引率
0.00%
发文量
25
审稿时长
1 months
期刊介绍: Molecular Vision is a peer-reviewed journal dedicated to the dissemination of research results in molecular biology, cell biology, and the genetics of the visual system (ocular and cortical). Molecular Vision publishes articles presenting original research that has not previously been published and comprehensive articles reviewing the current status of a particular field or topic. Submissions to Molecular Vision are subjected to rigorous peer review. Molecular Vision does NOT publish preprints. For authors, Molecular Vision provides a rapid means of communicating important results. Access to Molecular Vision is free and unrestricted, allowing the widest possible audience for your article. Digital publishing allows you to use color images freely (and without fees). Additionally, you may publish animations, sounds, or other supplementary information that clarifies or supports your article. Each of the authors of an article may also list an electronic mail address (which will be updated upon request) to give interested readers easy access to authors.
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