氨奈啶通过抑制自噬诱导HUVEC衰老。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Jing Xia, Yu Zhou, Siyue He, Manoj Kumar Vashisth, Huijie Jia, Qianlong Dai, Yufen He, Xiaobo Wang
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引用次数: 0

摘要

背景:Amonafide (Amo)由于血液毒性和消化道症状,其临床应用受到限制。多项研究报道,化疗副作用与细胞衰老积累密切相关。我们的研究旨在研究氨基甲酸钠是否会导致人脐静脉内皮细胞(HUVEC)系衰老,并探讨其与衰老的相关机制。方法:采用HUVEC细胞株进行衰老相关基因和蛋白表达实验。实验按不同天数分为对照组和氨酰胺组。采用SA-β-Gal染色检测HUVEC衰老细胞,Western blotting检测p16、p53、AMPK(腺苷5′-单磷酸腺苷(AMP)活化蛋白激酶)、mTOR(雷帕霉素机制靶蛋白)、p62、LC3(微管相关蛋白1轻链3,MAP1LC3)蛋白水平。荧光检测HUVEC细胞mRFP(单体红色荧光蛋白)-GFP(绿色荧光蛋白)-LC3和LC3点的表达。RT-qPCR检测了p53、p21、IL(白细胞介素)-1β、IL-6(白细胞介素-6)、IL-8(白细胞介素-8)和MCP-1(单核细胞趋化蛋白-1)的表达。CCK-8(细胞计数试剂盒-8)检测HUVEC细胞活力。结果:本研究中,我们报道了氨苷导致SA-β-Gal阳性细胞比例增加,衰老相关蛋白高表达(p53 p < 0.05;P16 p < 0.05),衰老相关基因(p53 p < 0.05;P21 p < 0.05;IL-1β p < 0.05;IL-6 p < 0.05;IL-8 p < 0.05;MCP-1 p < 0.05)。机制上,氨氮可导致第1天和第3天mTOR和p62蛋白水平升高(p < 0.05),第3天LC3II(微管相关蛋白1轻链3Ⅱ)/LC3I水平下降(p < 0.05),与衰老调控有关。此外,从0.8 μm浓度开始,氨水显著抑制人脐静脉内皮细胞(HUVECs)的活力(p < 0.05)。结论:我们在实验中首次发现氨硝胺引起正常细胞衰老。amonafide通过抑制自噬和激活mTOR途径诱导细胞衰老。这一发现可能为管理氨那肽的不良反应提供新的策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Amonafide Induces HUVEC Senescence by Inhibiting Autophagy.

Background: Amonafide (Amo), due to hematotoxicity and digestive tract symptoms, the clinical application of which is limited. Several studies have reported that chemotherapy side effects are closely related to cellular senescence accumulation. Our study aims to examine whether amonafide causes senescence in human umbilical vein endothelial cell (HUVEC) lines and investigate its mechanisms associated with senescence.

Methods: The experiments of expression of genes and proteins associated with aging were carried out with HUVEC cell lines. The experiments were divided into a control group and an amonafide group with different days. The HUVEC senescence cells were detected by SA-β-Gal staining, Western blotting detected the protein levels of p16, p53, AMPK (Adenosine 5'-Monophosphate (AMP)-Activated Protein Kinase), mTOR (mechanistic Target of Rapamycin), p62, and LC3 (microtubule-associated protein1 light chain 3, MAP1LC3). Fluorescence detected the expression of mRFP (monomeric Red Fluorescent Protein)-GFP (Green Fluorescent Protein)-LC3 and LC3 puncta of HUVEC cells. RT-qPCR (Real-Time Quantitative Polymerase Chain Reaction) tested the expressions of p53, p21, IL (Interleukin)-1β, IL-6 (Interleukin-6), IL-8 (Interleukin-8), and MCP-1 (Monocyte Chemoattractant Protein-1). CCK-8 (Cell Counting Kit-8) assessed the HUVEC cell viability.

Results: Here, we reported that amonafide resulted in an increased proportion of SA-β-Gal positive cells, high expression of aging-related proteins (p53 p < 0.05; p16 p < 0.05), and aging-related genes (p53 p < 0.05; p21 p < 0.05; IL-1β p < 0.05; IL-6 p < 0.05; IL-8 p < 0.05; MCP-1 p < 0.05) on the 3rd day. Mechanistically, amonafide could cause an increase in the levels of the mTOR (p < 0.05) on days 1 and 3, and p62 protein (p < 0.05) on day 1, and a decline in LC3II (microtubule-associated protein1 light chain 3Ⅱ)/LC3I levels (p < 0.05) on day 3, which is associated with the regulation of senescence. Additionally, the viability of HUVECs (human umbilical vein endothelial cells) was significantly inhibited by amonafide starting with a concentration of 0.8 μm (p < 0.05).

Conclusions: We first discovered that amonafide caused normal cellular senescence in our experiments. Amonafide-induced cellular aging by inhibiting autophagy and activating the mTOR pathway. The findings may offer new strategies for managing adverse reactions to amonafide.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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