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橙皮素通过G/M期阻滞、抑制Notch1信号通路和激活内质网应激诱导肺鳞癌细胞凋亡。

Hesperetin induces apoptosis in lung squamous carcinoma cells via G/M cycle arrest, inhibition of the Notch1 pathway and activation of endoplasmic reticulum stress.

作者信息

Xie Qianlong, He Ziming, Tan Lingfang, Li Min, Zhuang Min, Liu Chen, Chen Sunhui, Jin Long, Sui Yuxia

机构信息

Department of Pharmacy, Wuping County Hospital, Longyan, Fujian 363400, P.R. China.

School of Pharmacy, Fujian Medical University, Fuzhou, Fujian 350122, China.

出版信息

Int J Mol Med. 2025 May;55(5). doi: 10.3892/ijmm.2025.5518. Epub 2025 Mar 14.

DOI:10.3892/ijmm.2025.5518
PMID:40084686
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11936485/
Abstract

Hesperetin (HST), a natural flavonoid, has potent antitumor effects on lung adenocarcinoma; however, its effects on lung squamous cell carcinoma (LUSC) are currently unknown. The present study aimed to investigate the anticancer effects of HST on LUSC cells. The influence of 37.5, 75 and 150 M HST on the H1703 cell line, and of 75, 150 and 300 M HST on the H226 cell line was determined using the Cell Counting Kit‑8 method, cell cycle assay, JC‑1 mitochondrial membrane potential assay and Annexin V‑FITC/PI staining. DMSO‑treated cells were used as the control group. Western blotting was performed to detect the protein expression levels of cyclin B1, CDK1, Bcl‑2, Bax, caspase‑3, cleaved caspase‑3, phosphorylated‑eIF2α, eIF2α, glucose‑regulated protein 78, CHOP, Notch1 and Hes‑1. The relationship between endoplasmic reticulum stress (ERS), Notch1 signaling and apoptosis was examined using the ERS‑inhibitor 4‑phenylbutyric acid (4‑PBA; 500 M) and the Notch1 signaling activator Jagged‑1 (4 M). , mice were divided into control, HST (30, 60 and 90 mg/kg/q2d) and cisplatin (2 mg/kg/q2d) groups to evaluate the anti‑LUSC effects of HST. The results revealed that HST inhibited the viability of H226 and H1703 cells, leading to cell cycle arrest at the G/M phase and the induction of cell apoptosis. In addition, HST downregulated the Notch1 signaling pathway and increased ERS. In H1703 cells, 4‑PBA and Jagged‑1 reduced the expression of apoptosis‑related proteins, and Jagged‑1 also reduced the expression of ERS‑related proteins. , HST reduced tumor growth without any apparent toxic side effects. In conclusion, HST may exert its antitumor effects by inducing G/M cell cycle arrest and inhibiting the Notch1 signaling pathway to activate ERS‑induced apoptosis, making it a promising agent for treating LUSC.

摘要

橙皮素(HST)是一种天然黄酮类化合物,对肺腺癌具有强大的抗肿瘤作用;然而,其对肺鳞状细胞癌(LUSC)的作用目前尚不清楚。本研究旨在探讨HST对LUSC细胞的抗癌作用。采用细胞计数试剂盒-8法、细胞周期分析、JC-1线粒体膜电位分析和Annexin V-FITC/PI染色,测定37.5、75和150μM HST对H1703细胞系以及75、150和300μM HST对H226细胞系的影响。用二甲基亚砜处理的细胞作为对照组。进行蛋白质免疫印迹法检测细胞周期蛋白B1、细胞周期蛋白依赖性激酶1、Bcl-2、Bax、半胱天冬酶-3、裂解的半胱天冬酶-3、磷酸化真核翻译起始因子2α、真核翻译起始因子2α、葡萄糖调节蛋白78、CHOP、Notch1和Hes-1的蛋白表达水平。使用内质网应激(ERS)抑制剂4-苯基丁酸(4-PBA;500μM)和Notch1信号激活剂Jagged-1(4μM)研究ERS、Notch1信号与细胞凋亡之间的关系。此外,将小鼠分为对照组、HST(30、60和90mg/kg/每2天一次)和顺铂(2mg/kg/每2天一次)组,以评估HST对LUSC的抗癌作用。结果显示,HST抑制H226和H1703细胞的活力,导致细胞周期停滞在G/M期并诱导细胞凋亡。此外,HST下调Notch1信号通路并增加ERS。在H1703细胞中,4-PBA和Jagged-1降低了凋亡相关蛋白的表达,Jagged-1也降低了ERS相关蛋白的表达。此外,HST可降低肿瘤生长且无明显毒副作用。总之,HST可能通过诱导G/M期细胞周期停滞和抑制Notch1信号通路来激活ERS诱导的细胞凋亡发挥其抗肿瘤作用,使其成为治疗LUSC的有前景的药物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17e8/11936485/d1ac81e5735b/ijmm-55-05-05518-g07.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17e8/11936485/b325fbc8955f/ijmm-55-05-05518-g00.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17e8/11936485/ab17cf898852/ijmm-55-05-05518-g01.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17e8/11936485/20c569504e3c/ijmm-55-05-05518-g03.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17e8/11936485/ad64c4d2d2ce/ijmm-55-05-05518-g04.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17e8/11936485/d15785a9d654/ijmm-55-05-05518-g05.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17e8/11936485/d1c7cef30b06/ijmm-55-05-05518-g06.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17e8/11936485/d1ac81e5735b/ijmm-55-05-05518-g07.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17e8/11936485/b325fbc8955f/ijmm-55-05-05518-g00.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17e8/11936485/ab17cf898852/ijmm-55-05-05518-g01.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17e8/11936485/d2f2b458cd1c/ijmm-55-05-05518-g02.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17e8/11936485/20c569504e3c/ijmm-55-05-05518-g03.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17e8/11936485/ad64c4d2d2ce/ijmm-55-05-05518-g04.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17e8/11936485/d15785a9d654/ijmm-55-05-05518-g05.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17e8/11936485/d1c7cef30b06/ijmm-55-05-05518-g06.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17e8/11936485/d1ac81e5735b/ijmm-55-05-05518-g07.jpg

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