Zhen Li, Yunhui Wang, Shubin Liang, Tingdong Yuan, Jing Liu
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The impact of EIF2S1 knockdown on the tumorigenesis of SK-N-SH cells was assessed in nude mice.</p><p><b>Results:</b> Bioinformatics analyses revealed a significant association between elevated EIF2S1 expression and poor prognosis in NB patients. The increased levels of EIF2S1 expression were confirmed in NB tissues and cancerous cell lines. Furthermore, EIF2S1 overexpression was linked to translational regulation and immune cell infiltration modulation. Silencing of EIF2S1 resulted in the suppression of cell proliferation, migration, and tumorigenicity in NB cells. Additionally, EIF2S1 knockdown led to an accumulation of iron and oxidative stress, as well as a reduction in GPX4 and SLC7A11 expression.</p><p><b>Conclusion:</b> Our findings indicate that EIF2S1 appears to facilitate the progression of NB by protecting tumor cells from ferroptosis through modulating GPX4 and SLC7A11 expression. 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引用次数: 0
摘要
背景:神经母细胞瘤(NB神经母细胞瘤(NB)是儿童中最具破坏性的恶性肿瘤之一,由于治疗方案有限,死亡率很高。本研究旨在阐明与铁突变相关的 EIF2S1 基因在 NB 发病机制中的作用,并探索其作为治疗靶点的潜力:我们利用FerrDb数据库和NB相关转录组学数据进行了全面的生物信息学分析,以研究EIF2S1在NB中的作用。随后在 NB 组织和细胞系中验证了 EIF2S1 表达的变化。通过 shRNA 介导的 EIF2S1 敲除,在 SK-N-SH 和 IMR-32 细胞系中进行了功能缺失实验。在裸鼠体内评估了 EIF2S1 敲除对 SK-N-SH 细胞肿瘤发生的影响:结果:生物信息学分析表明,EIF2S1表达升高与NB患者预后不良之间存在显著关联。在 NB 组织和癌细胞系中证实了 EIF2S1 表达水平的升高。此外,EIF2S1 的过表达与翻译调节和免疫细胞浸润调节有关。沉默 EIF2S1 可抑制 NB 细胞的增殖、迁移和致瘤性。此外,EIF2S1的敲除导致了铁的积累和氧化应激,以及GPX4和SLC7A11表达的减少:我们的研究结果表明,EIF2S1似乎通过调节GPX4和SLC7A11的表达,保护肿瘤细胞免受铁变态反应的影响,从而促进NB的进展。因此,EIF2S1 可作为治疗 NB 的潜在靶点。
EIF2S1 Silencing Impedes Neuroblastoma Development Through GPX4 Inactivation and Ferroptosis Induction
Background: Neuroblastoma (NB) is one of the most devastating malignancies in children, accounting for a high mortality rate due to limited treatment options. This study is aimed at elucidating the role of the ferroptosis-related EIF2S1 gene in NB pathogenesis and exploring its potential as a therapeutic target.
Methods: We conducted comprehensive bioinformatics analyses utilizing the FerrDb database and NB-related transcriptomics data to investigate the role of EIF2S1 in NB. Changes in EIF2S1 expression were subsequently validated in NB tissues and cell lines. Loss-of-function experiments were performed in SK-N-SH and IMR-32 cell lines through shRNA-mediated EIF2S1 knockdown. The impact of EIF2S1 knockdown on the tumorigenesis of SK-N-SH cells was assessed in nude mice.
Results: Bioinformatics analyses revealed a significant association between elevated EIF2S1 expression and poor prognosis in NB patients. The increased levels of EIF2S1 expression were confirmed in NB tissues and cancerous cell lines. Furthermore, EIF2S1 overexpression was linked to translational regulation and immune cell infiltration modulation. Silencing of EIF2S1 resulted in the suppression of cell proliferation, migration, and tumorigenicity in NB cells. Additionally, EIF2S1 knockdown led to an accumulation of iron and oxidative stress, as well as a reduction in GPX4 and SLC7A11 expression.
Conclusion: Our findings indicate that EIF2S1 appears to facilitate the progression of NB by protecting tumor cells from ferroptosis through modulating GPX4 and SLC7A11 expression. Consequently, EIF2S1 may serve as a potential therapeutic target for the management of NB.
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