通过调节miR-34a-5p/HDAC1轴，阻断lncRNA HCG18可使对紫杉醇耐药的肺癌细胞对紫杉醇重新敏感。

IF 1.9 4区医学 Q3 INFECTIOUS DISEASES

Journal of Chemotherapy Pub Date : 2024-12-01 Epub Date: 2024-05-06 DOI:10.1080/1120009X.2024.2308979

Fujun Zhang, Juan Wang, Haoyu Li, Xiaoyu Luo, Qiuyue Xu, Lin Liu, Yunmin Xu, Kai Yang, Zijie Liu, Rong Gong

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引用次数: 0

摘要

肺癌是全球最常见的癌症之一，存活率很低。紫杉醇（Taxol）是晚期肺癌的常用化疗药物。虽然紫杉醇改善了肺癌患者的临床疗效，但相当多的肺癌患者会对紫杉醇产生抗药性，导致治疗失败。长非编码 RNA HCG18 在肺癌和 Taxol 耐药性中的作用尚未完全明了。为此，我们使用 qRT-PCR 技术检测了 HCG18 和 miR-34a-5p 在肺肿瘤和正常肺组织中的表达。我们还通过细胞活力和细胞凋亡测定评估了紫杉醇耐药性。通过 starBase 在线服务，我们分析了 lncRNA 与 mRNA 以及 miRNA 与 mRNA 之间的相互作用。我们还通过荧光素酶和 RNA 下拉实验进一步验证了 lncRNA 和 miRNA 之间的关联。我们的研究结果表明，与正常肺组织相比，HCG18在肺癌组织中明显上调。沉默 HCG18 会增加肺癌细胞对 Taxol 的敏感性。此外，我们的研究还建立了耐 Taxol 细胞系，并观察到 HCG18 在耐 Taxol 肺癌细胞中大量上调。生物信息学分析预测，HCG18可与miR-34a-5p结合，形成一个竞争性的内源性RNA网络，并通过荧光素酶检测证实了这一点。我们发现，miR-34a-5p在肺癌组织中下调，并与紫杉醇耐药性呈负相关，因为它直接与HDAC1的3'UTR区域结合。进一步的结果表明，抑制 HCG18 能显著增加 miR-34a-5p 的表达，并使肺癌细胞对 Taxol 敏感。这种敏化作用可通过抑制 miR-34a-5p 逆转。最后，我们在异种移植小鼠模型中证明，通过调节 miR-34a-5p-HDAC1 轴，抑制 HCG18 可使耐 Taxol 的肺癌细胞对 Taxol 治疗敏感。总之，我们的体外和体内研究结果发现了一种新的分子机制，即HCG18通过调节miR-34a-5p/HDAC1轴促进Taxol耐药。这些发现有助于化疗耐药肺癌的诊断和治疗。

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Blocking lncRNA HCG18 re-sensitizes Taxol resistant lung cancer cells to Taxol through modulating the miR-34a-5p/HDAC1 axis.

Lung cancer is one of the most frequently diagnosed cancers worldwide, associated with a poor survival rate. Taxol (Paclitaxel) is commonly used as a chemotherapeutic treatment for advanced lung cancers. While Taxol has improved clinical outcomes for lung cancer patients, a significant number of them develop resistance to Taxol, resulting in treatment failure. The role of the long noncoding RNA HCG18 in lung cancer and Taxol resistance has not yet been fully understood. To investigate this, we examined the expression of HCG18 and miR-34a-5p in lung tumors and normal lung tissues using qRT-PCR. We also assessed Taxol resistance through cell viability and apoptosis assays. Through the starBase online service, we analyzed the interactions between lncRNA and mRNA as well as miRNA and mRNA. We further validated the association between lncRNA and miRNA through luciferase and RNA pull-down assays. Our findings demonstrated that HCG18 was significantly upregulated in lung cancer tissues compared to normal lung tissues. Silencing HCG18 increased the sensitivity of lung cancer cells to Taxol. Additionally, our study established a Taxol-resistant cell line and observed a substantial upregulation of HCG18 in Taxol-resistant lung cancer cells. Bioinformatic analysis predicted that HCG18 could bind to miR-34a-5p, forming a competing endogenous RNA network, which was confirmed through luciferase assay. We found that miR-34a-5p was downregulated in lung cancer tissues and negatively correlated with Taxol resistance, as it directly bound to the 3'UTR region of HDAC1. Further results showed that inhibition of HCG18 significantly increased miR-34a-5p expression and sensitized lung cancer cells to Taxol. This sensitization could be reversed by inhibiting miR-34a-5p. Finally, we demonstrated in a xenograft mouse model that inhibition of HCG18 sensitized Taxol-resistant lung cancer cells to Taxol treatment by modulating the miR-34a-5p-HDAC1 axis. In conclusion, our in vitro and in vivo results uncover a novel molecular mechanism by which HCG18 promotes Taxol resistance through modulation of the miR-34a-5p/HDAC1 axis. These findings contribute to the diagnosis and treatment of chemo-resistant lung cancer.

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来源期刊

Journal of Chemotherapy 医学-药学

CiteScore

3.70

自引率

0.00%

发文量

144

审稿时长

6-12 weeks

期刊介绍： The Journal of Chemotherapy is an international multidisciplinary journal committed to the rapid publication of high quality, peer-reviewed, original research on all aspects of antimicrobial and antitumor chemotherapy. The Journal publishes original experimental and clinical research articles, state-of-the-art reviews, brief communications and letters on all aspects of chemotherapy, providing coverage of the pathogenesis, diagnosis, treatment, and control of infection, as well as the use of anticancer and immunomodulating drugs. Specific areas of focus include, but are not limited to: · Antibacterial, antiviral, antifungal, antiparasitic, and antiprotozoal agents; · Anticancer classical and targeted chemotherapeutic agents, biological agents, hormonal drugs, immunomodulatory drugs, cell therapy and gene therapy; · Pharmacokinetic and pharmacodynamic properties of antimicrobial and anticancer agents; · The efficacy, safety and toxicology profiles of antimicrobial and anticancer drugs; · Drug interactions in single or combined applications; · Drug resistance to antimicrobial and anticancer drugs; · Research and development of novel antimicrobial and anticancer drugs, including preclinical, translational and clinical research; · Biomarkers of sensitivity and/or resistance for antimicrobial and anticancer drugs; · Pharmacogenetics and pharmacogenomics; · Precision medicine in infectious disease therapy and in cancer therapy; · Pharmacoeconomics of antimicrobial and anticancer therapies and the implications to patients, health services, and the pharmaceutical industry.