Kynureninase knockdown inhibits cisplatin resistance in vivo and in vitro and impacts the prognosis of cervical adenocarcinoma.

IF 2.8 4区生物学 Q3 CELL BIOLOGY

Cell Division Pub Date : 2023-09-24 DOI:10.1186/s13008-023-00098-3

Jun-Wen Zhang, Ya-Nan Wang, Mei-Ling Zhong, Mei-Rong Liang

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引用次数: 0

Abstract

Background: Chemotherapy resistance is a leading cause of treatment failure in cases of cervical adenocarcinoma (ADC), and no effective treatment approach has yet been found. We previously identified the differentially expressed kynureninase (KYNU) mRNA in cervical adenocarcinoma cells (HeLa) and cervical adenocarcinoma cisplatin resistance cells (HeLa/DDP) using gene chips. However, the role and potential mechanism of KYNU in the cisplatin resistance of cervical adenocarcinoma remain unclear.

Methods: We verified the expression of KYNU in the cells and tissues of ADC patients and analyzed its correlation with patient prognosis. A stable HeLa/DDP cell line with KYNU mRNA knockdown was constructed. We then used a CCK8 assay to detect cell survival, a transwell assay to evaluate cell migration and proliferation and flow cytometry to measure apoptosis. The effect of KYNU silence on cisplatin sensitivity was evaluated in an orthotopic model of metastatic ADC. Immunohistochemistry was performed to determine the changes in relevant drug resistance-associated protein expression, aiming to explore the underlying mechanism of KYNU-mediated drug resistance.

Results: KYNU is overexpressed in HeLa/DDP cells and tissues and is associated with the poor prognoses of patients with ADC. After KYNU mRNA knockdown, the invasion, migration, and proliferation of HeLa/DDP cells in the cisplatin environment significantly reduced, while the apoptosis rate of HeLa/DDP cells significantly increased. Meanwhile, KYNU knockdown improved the DDP sensitivity of ADC in vivo. Furthermore, silencing KYNU decreased the expressions of CD34 and the drug-resistance related proteins P-gp, MRP1, and GST-π and increased the level of the proapoptotic regulatory protein Bax.

Conclusion: KYNU deficiency enhanced DDP sensitivity by suppressing cell proliferation, migration, and invasion and promoting apoptosis in DDP-resistant ADC cells in vitro. Furthermore, KYNU knockdown improved the drug sensitivity of ADC in vivo. The results showed that KYNU is involved in the chemotherapy resistance of cervical adenocarcinoma.

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犬尿氨酸酶敲低在体内外抑制顺铂耐药性，并影响宫颈腺癌的预后。

背景：化疗耐药性是导致宫颈腺癌（ADC）治疗失败的主要原因，目前尚无有效的治疗方法。我们先前使用基因芯片鉴定了宫颈腺癌细胞（HeLa）和宫颈腺癌顺铂耐药性细胞（HeLa/DDP）中差异表达的犬尿氨酸酶（KYNU）mRNA。然而，KYNU在宫颈腺癌顺铂耐药性中的作用及其潜在机制尚不清楚。方法：验证KYNU在ADC患者细胞和组织中的表达，并分析其与患者预后的相关性。构建了稳定的KYNU mRNA敲除的HeLa/DDP细胞系。然后，我们使用CCK8测定法检测细胞存活率，transwell测定法评估细胞迁移和增殖，流式细胞术测量细胞凋亡。在转移性ADC原位模型中评估KYNU沉默对顺铂敏感性的影响。免疫组化检测相关耐药相关蛋白表达的变化，旨在探讨KYNU介导耐药的潜在机制。结果：KYNU在HeLa/DDP细胞和组织中过表达，与ADC患者预后不良有关。KYNU mRNA敲低后，HeLa/DDP细胞在顺铂环境中的侵袭、迁移和增殖显著减少，而HeLa/DDD细胞的凋亡率显著增加。同时，敲低KYNU可提高ADC体内DDP敏感性。此外，沉默KYNU降低了CD34和耐药相关蛋白P-gp、MRP1和GST-π的表达，并提高了促凋亡调节蛋白Bax的水平。此外，敲低KYNU可提高ADC在体内的药物敏感性。结果表明，KYNU参与了宫颈腺癌的化疗耐药性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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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