Hypoxia-Challenged Pancreatic Adenocarcinoma Cell-Derived Exosomal circR3HCC1L Drives Tumor Growth Via Upregulating PKM2 Through Sequestering miR-873-5p.

IF 2.4 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Molecular Biotechnology Pub Date : 2025-02-01 Epub Date: 2024-03-25 DOI:10.1007/s12033-024-01091-z

Luoluo Wang, Shuping Zhou, Yi Ruan, Xiang Wu, Xueming Zhang, Yi Li, Dongjian Ying, Yeting Lu, Yuan Tian, Gong Cheng, Jing Zhang, Kaiji Lv, Xinhua Zhou

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Abstract

Pancreatic adenocarcinoma (PAAD) is a fatal disease with poor survival. Increasing evidence show that hypoxia-induced exosomes are associated with cancer progression. Here, we aimed to investigate the function of hsa_circ_0007678 (circR3HCC1L) and hypoxic PAAD cell-derived exosomal circR3HCC1L in PAAD progression. Through the exoRBase 2.0 database, we screened for a circular RNA circR3HCC1L related to PAAD. Changes of circR3HCC1L in PAAD samples and cells were analyzed with real-time quantitative polymerase chain reaction (RT-qPCR). Cell proliferation, migration, invasion were analyzed by colony formation, cell counting, and transwell assays. Measurements of glucose uptake and lactate production were done using corresponding kits. Several protein levels were detected by western blotting. The regulation mechanism of circR3HCC1L was verified by dual-luciferase reporter, RNA immunoprecipitation, and RNA pull-down assays. Exosomes were separated by differential ultracentrifugation. Animal experiments were used to verify the function of hypoxia-derived exosomal circR3HCC1L. CircR3HCC1L was upregulated in PAAD samples and hypoxic PAAD cells. Knockdown of circR3HCC1L decreased hypoxia-driven PAAD cell proliferation, migration, invasion, and glycolysis. Hypoxic PAAD cell-derived exosomes had higher levels of circR3HCC1L, hypoxic PAAD cell-derived exosomal circR3HCC1L promoted normoxic cancer cell malignant transformation and glycolysis in vitro and xenograft tumor growth in mouse models in vivo. Mechanistically, circR3HCC1L regulated pyruvate kinase M2 (PKM2) expression via sponging miR-873-5p. Also, PKM2 overexpression or miR-873-5p silencing offset circR3HCC1L knockdown-mediated effects on hypoxia-challenged PAAD cell malignant transformation and glycolysis. Hypoxic PAAD cell-derived exosomal circR3HCC1L facilitated PAAD progression through the miR-873-5p/PKM2 axis, highlighting the contribution of hypoxic PAAD cell-derived exosomal circR3HCC1L in PAAD.

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缺氧挑战下胰腺腺癌细胞衍生的外泌体 circR3HCC1L 通过螯合 miR-873-5p 上调 PKM2 推动肿瘤生长

胰腺腺癌（PAAD）是一种致命疾病，生存率很低。越来越多的证据表明，缺氧诱导的外泌体与癌症进展有关。在此，我们旨在研究 hsa_circ_0007678 (circR3HCC1L) 和缺氧 PAAD 细胞衍生的外泌体 circR3HCC1L 在 PAAD 进展中的功能。通过exoRBase 2.0数据库，我们筛选出了与PAAD相关的环状RNA circR3HCC1L。通过实时定量聚合酶链反应（RT-qPCR）分析了circR3HCC1L在PAAD样本和细胞中的变化。通过集落形成、细胞计数和透孔试验分析了细胞的增殖、迁移和侵袭。使用相应的试剂盒测量葡萄糖摄取量和乳酸生成量。蛋白水平的检测采用了 Western 印迹法。circR3HCC1L的调控机制通过双荧光素酶报告、RNA免疫沉淀和RNA下拉实验进行了验证。外泌体采用差速超速离心法进行分离。动物实验用于验证缺氧衍生的外泌体 circR3HCC1L 的功能。CircR3HCC1L在PAAD样本和缺氧的PAAD细胞中上调。敲除circR3HCC1L可减少缺氧驱动的PAAD细胞增殖、迁移、侵袭和糖酵解。缺氧 PAAD 细胞衍生的外泌体具有较高水平的 circR3HCC1L，缺氧 PAAD 细胞衍生的外泌体 circR3HCC1L 在体外促进了常氧癌细胞的恶性转化和糖酵解，在体内促进了小鼠模型中异种移植肿瘤的生长。从机制上讲，circR3HCC1L 通过海绵状 miR-873-5p 调节丙酮酸激酶 M2（PKM2）的表达。同时，PKM2过表达或miR-873-5p沉默抵消了circR3HCC1L敲除介导的对缺氧挑战的PAAD细胞恶性转化和糖酵解的影响。缺氧PAAD细胞衍生的外泌体circR3HCC1L通过miR-873-5p/PKM2轴促进了PAAD的进展，突出了缺氧PAAD细胞衍生的外泌体circR3HCC1L在PAAD中的贡献。

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来源期刊

Molecular Biotechnology 医学-生化与分子生物学

CiteScore

4.10

自引率

3.80%

发文量

165

审稿时长

6 months

期刊介绍： Molecular Biotechnology publishes original research papers on the application of molecular biology to both basic and applied research in the field of biotechnology. Particular areas of interest include the following: stability and expression of cloned gene products, cell transformation, gene cloning systems and the production of recombinant proteins, protein purification and analysis, transgenic species, developmental biology, mutation analysis, the applications of DNA fingerprinting, RNA interference, and PCR technology, microarray technology, proteomics, mass spectrometry, bioinformatics, plant molecular biology, microbial genetics, gene probes and the diagnosis of disease, pharmaceutical and health care products, therapeutic agents, vaccines, gene targeting, gene therapy, stem cell technology and tissue engineering, antisense technology, protein engineering and enzyme technology, monoclonal antibodies, glycobiology and glycomics, and agricultural biotechnology.