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将利尿药苯扎明重新用作抗骨肉瘤药物,其作用机制是抑制整合素/黏着斑激酶/信号转导和转录激活因子3信号通路并损害线粒体功能。

Repurposing the diuretic benzamil as an anti-osteosarcoma agent that acts by suppressing integrin/FAK/STAT3 signalling and compromising mitochondrial function.

作者信息

Lin Meng-Chieh, Chen Guan-Yu, Yu Hsin-Hsien, Hsu Pei-Ling, Lee Chu-Wan, Cheng Chih-Cheng, Wu Shih-Ying, Pan Bo-Syong, Su Bor-Chyuan

机构信息

School of Medical Laboratory Science and Biotechnology, College of Medical Science and Technology, Taipei Medical University, Taipei, Taiwan.

Division of General Surgery, Department of Surgery, Wan Fang Hospital, Taipei Medical University, Taipei, Taiwan.

出版信息

Bone Joint Res. 2024 Apr 4;13(4):157-168. doi: 10.1302/2046-3758.134.BJR-2023-0289.R1.

DOI:10.1302/2046-3758.134.BJR-2023-0289.R1
PMID:38569602
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10990635/
Abstract

AIMS

Osteosarcoma is the most common primary bone malignancy among children and adolescents. We investigated whether benzamil, an amiloride analogue and sodium-calcium exchange blocker, may exhibit therapeutic potential for osteosarcoma in vitro.

METHODS

MG63 and U2OS cells were treated with benzamil for 24 hours. Cell viability was evaluated with the MTS/PMS assay, colony formation assay, and flow cytometry (forward/side scatter). Chromosome condensation, the terminal deoxynucleotidyl transferase dUTP nick end labelling (TUNEL) assay, cleavage of poly-ADP ribose polymerase (PARP) and caspase-7, and FITC annexin V/PI double staining were monitored as indicators of apoptosis. Intracellular calcium was detected by flow cytometry with Fluo-4 AM. The phosphorylation and activation of focal adhesion kinase (FAK) and signal transducer and activator of transcription 3 (STAT3) were measured by western blot. The expression levels of X-linked inhibitor of apoptosis protein (XIAP), B-cell lymphoma 2 (Bcl-2), B-cell lymphoma-extra large (Bcl-xL), SOD1, and SOD2 were also assessed by western blot. Mitochondrial status was assessed with tetramethylrhodamine, ethyl ester (TMRE), and intracellular adenosine triphosphate (ATP) was measured with BioTracker ATP-Red Live Cell Dye. Total cellular integrin levels were evaluated by western blot, and the expression of cell surface integrins was assessed using fluorescent-labelled antibodies and flow cytometry.

RESULTS

Benzamil suppressed growth of osteosarcoma cells by inducing apoptosis. Benzamil reduced the expression of cell surface integrins α5, αV, and β1 in MG63 cells, while it only reduced the expression of αV in U2OS cells. Benzamil suppressed the phosphorylation and activation of FAK and STAT3. In addition, mitochondrial function and ATP production were compromised by benzamil. The levels of anti-apoptotic proteins XIAP, Bcl-2, and Bcl-xL were reduced by benzamil. Correspondingly, benzamil potentiated cisplatin- and methotrexate-induced apoptosis in osteosarcoma cells.

CONCLUSION

Benzamil exerts anti-osteosarcoma activity by inducing apoptosis. In terms of mechanism, benzamil appears to inhibit integrin/FAK/STAT3 signalling, which triggers mitochondrial dysfunction and ATP depletion.

摘要

目的

骨肉瘤是儿童和青少年中最常见的原发性骨恶性肿瘤。我们研究了氨氯吡脒类似物及钠钙交换阻滞剂苯扎米尔在体外对骨肉瘤是否具有治疗潜力。

方法

用苯扎米尔处理MG63和U2OS细胞24小时。通过MTS/PMS检测、集落形成检测和流式细胞术(前向/侧向散射)评估细胞活力。监测染色体浓缩、末端脱氧核苷酸转移酶dUTP缺口末端标记(TUNEL)检测、聚ADP核糖聚合酶(PARP)和半胱天冬酶-7的裂解以及FITC膜联蛋白V/碘化丙啶双染色作为细胞凋亡指标。用Fluo-4 AM通过流式细胞术检测细胞内钙。通过蛋白质免疫印迹法检测粘着斑激酶(FAK)和信号转导及转录激活因子3(STAT3)的磷酸化和激活情况。也通过蛋白质免疫印迹法评估X连锁凋亡抑制蛋白(XIAP)、B细胞淋巴瘤-2(Bcl-2)、B细胞淋巴瘤-超大(Bcl-xL)、超氧化物歧化酶1(SOD1)和超氧化物歧化酶2(SOD2)的表达水平。用四甲基罗丹明乙酯(TMRE)评估线粒体状态,并用BioTracker ATP-红色活细胞染料测量细胞内三磷酸腺苷(ATP)。通过蛋白质免疫印迹法评估总细胞整合素水平,并用荧光标记抗体和流式细胞术评估细胞表面整合素的表达。

结果

苯扎米尔通过诱导细胞凋亡抑制骨肉瘤细胞生长。苯扎米尔降低了MG63细胞中细胞表面整合素α5、αV和β1的表达,而在U2OS细胞中仅降低了αV的表达。苯扎米尔抑制FAK和STAT3的磷酸化和激活。此外,苯扎米尔损害了线粒体功能和ATP生成。苯扎米尔降低了抗凋亡蛋白XIAP、Bcl-2和Bcl-xL的水平。相应地,苯扎米尔增强了顺铂和甲氨蝶呤诱导的骨肉瘤细胞凋亡。

结论

苯扎米尔通过诱导细胞凋亡发挥抗骨肉瘤活性。在机制方面,苯扎米尔似乎抑制整合素/FAK/STAT3信号传导,从而引发线粒体功能障碍和ATP耗竭。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a771/10990635/1064bc6f3b09/BJR-2023-0289.R1-galleyfig7.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a771/10990635/1064bc6f3b09/BJR-2023-0289.R1-galleyfig7.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a771/10990635/516b108b7139/BJR-2023-0289.R1-galleyfig1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a771/10990635/c9cbfdc0d600/BJR-2023-0289.R1-galleyfig2.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a771/10990635/1064bc6f3b09/BJR-2023-0289.R1-galleyfig7.jpg

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