消耗 NUAK2 可通过增强铁变态反应阻止肺腺癌细胞的干性和血管生成，并促进其衰老

IF 2.8 4区生物学 Q3 CELL BIOLOGY

Cell Division Pub Date : 2024-07-28 DOI:10.1186/s13008-024-00128-8

Jun Fan, Lei Xue, Haoran Lin, Jinhua Luo

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引用次数: 0

摘要

NUAK家族激酶2（NUAK2）已被确定为多种恶性肿瘤中肿瘤进展的重要介质。然而，它在肺腺癌（LUAD）中的作用仍不清楚。研究人员进行了生物信息学分析，以评估NUAK2在LUAD患者中的表达和预后。在多个 LUAD 细胞系中检测了 NUAK2 的表达，并进行了功能缺失实验。使用 CCK-8 和集落形成试验评估细胞增殖能力。通过球形体形成、碱性磷酸酶（AP）染色、管形成和 SA-β-gal 染色试验来检测干性、血管生成和衰老。脂质过氧化物酶通过 TBARS 生成和脂质 ROS 进行评估。Western 印迹技术用于检测关键蛋白。此外，用铁蛋白抑制剂铁前列素-1（Fer-1）处理 A549 细胞，进行挽救试验。最后，将A549细胞皮下注射到小鼠右侧腹部，建立LUAD小鼠模型，并检测肿瘤的重量和大小。NUAK2在LUAD患者和LUAD细胞系中上调。抑制NUAK2可抑制A549细胞的增殖和干性。同时，NUAK2耗竭通过减少成形管和VEGFR1/2的表达阻断了血管生成，并通过提高SA-β-gal阳性细胞和p16、p21和p53的表达促进了A549细胞的衰老。此外，NUAK2 的缺失会增加脂质 ROS、TBARS 的产生和 Fe2+ 的水平，这表明 NUAK2 的缺失会引发 A549 细胞的铁变态反应。此外，挽救实验表明，NUAK2 的缺失对 A549 细胞恶性行为的影响在一定程度上被额外的 Fer-1 处理所削弱。最后，体内实验表明，敲除 NUAK2 能极大地抑制 LUAD 小鼠的肿瘤生长。总之，NUAK2的损耗部分通过触发铁凋亡抑制了A549细胞的致癌表型，这表明NUAK2是治疗LUAD的一个新靶点。

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Depletion of NUAK2 blocks the stemness and angiogenesis and facilitates senescence of lung adenocarcinoma cells via enhancing ferroptosis

NUAK family kinase 2 (NUAK2) has been identified as an important mediator for tumor progression in multiple malignancies. Nevertheless, its role in lung adenocarcinoma (LUAD) remains unclear. Bioinformatic analysis was performed to assess the expression and prognosis of NUAK2 in patients with LUAD. The NUAK2 expression was measured in multiple LUAD cell lines, and the loss-of-function experiment was conducted. Cell proliferation ability was assessed using CCK-8 and colony formation assays. Spheroid formation, alkaline phosphatase (AP) staining, tube formation and SA-β-gal staining assays were performed to examine stemness, angiogenesis and senescence. Lipid peroxidase was assessed by TBARS production and lipid ROS. Western blot was used to detect critical proteins. In addition, A549 cells were treated with ferroptosis inhibitor ferrostatin-1 (Fer-1) for a rescue assay. Finally, A549 cells were subcutaneously injected into the right flank of mice to establish LUAD-bearing mouse model, and the tumor weight and size were detected. NUAK2 was upregulated in patients with LUAD and LUAD cell lines. NUAK2 depletion inhibited cell viability, colonies, tumor spheres and decreased Oct4 and Nanog expression, confirming NUAK2 depletion inhibited proliferation and stemness of A549 cells. Meanwhile, NUAK2 depletion blocked angiogenesis via reducing formed tubes and VEGFR1/2 expression, and promoted senescence of A549 cells by elevating SA-β-gal-positive cells and p16, p21 and p53 expression. Moreover, NUAK2 depletion elevated lipid ROS, TBARS production and Fe2+ level, demonstrating that NUAK2 depletion could trigger ferroptosis in A549 cells. Furthermore, the rescue experiments revealed that the impacts of NUAK2 depletion on malignant behaviors in A549 cells were partly weakened by additional Fer-1 treatment. Finally, in vivo experiments demonstrated that NUAK2 knockdown greatly inhibited tumor growth in LUAD-bearing mice. In summary, NUAK2 depletion impeded oncogenic phenotypes of A549 cells partly via triggering ferroptosis, suggesting NUAK2 as a novel target for treating LUAD.

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来源期刊

Cell Division CELL BIOLOGY-

CiteScore

3.70

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Cell Division is an open access, peer-reviewed journal that encompasses all the molecular aspects of cell cycle control and cancer, cell growth, proliferation, survival, differentiation, signalling, gene transcription, protein synthesis, genome integrity, chromosome stability, centrosome duplication, DNA damage and DNA repair. Cell Division provides an online forum for the cell-cycle community that aims to publish articles on all exciting aspects of cell-cycle research and to bridge the gap between models of cell cycle regulation, development, and cancer biology. This forum is driven by specialized and timely research articles, reviews and commentaries focused on this fast moving field, providing an invaluable tool for cell-cycle biologists. Cell Division publishes articles in areas which includes, but not limited to: DNA replication, cell fate decisions, cell cycle & development Cell proliferation, mitosis, spindle assembly checkpoint, ubiquitin mediated degradation DNA damage & repair Apoptosis & cell death