LncRNA MCM3AP-AS1 promotes chemoresistance in triple-negative breast cancer through the miR-524-5p/RBM39 axis.

IF 3.5 2区生物学 Q3 CELL BIOLOGY

Molecular and Cellular Biochemistry Pub Date : 2025-01-01 Epub Date: 2024-03-12 DOI:10.1007/s11010-023-04908-8

Yueping Wang, Xuedong Wang, Haiyi Sun, Ziyun Zhang, Juan Gu

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Abstract

Triple-negative breast cancer (TNBC) is the most lethal subtype of BC, with unfavorable treatment outcomes. Evidence suggests the engagement of lncRNA MCM3AP-AS1 in BC development. This study investigated the action of MCM3AP-AS1 in chemoresistance of TNBC cells. Drug-resistant TNBC cell lines SUM159PT^R and MDA-MB-231^R were constructed by exposure to increasing concentrations of doxorubicin/docetaxel (DOX/DXL). MCM3AP-AS1 and miR-524-5p expression levels were determined by RT-qPCR. RNA binding motif 39 (RBM39) level was measured using Western blot. Cell viability and apoptosis were assessed by CCK-8 assay and flow cytometry. The targeted binding of miR-524-5p with MCM3AP-AS1 or RBM39 was predicted by ECORI database and validated by dual-luciferase assays. The gain-and-loss of function assays were conducted in cells to investigate the interactions among MCM3AP-AS1, miR-524-5p, and RBM39. TNBC xenograft mouse models were established through subcutaneous injection of MCM3AP-AS1-silencing MDA-MB-231^R cells and intraperitoneally administrated with DOX/DXL to verify the role of MCM3AP-AS1 in vivo. MCM3AP-AS1 was upregulated in drug-resistant TNBC cells, and MCM3AP-AS1 silencing could sensitize drug-resistant TNBC cells to chemotherapeutic drugs by promoting apoptosis. MCM3AP-AS1 targeted miR-524-5p. After DOX/DXL treatment, miR-524-5p inhibition partially reversed the effect of MCM3AP-AS1 silencing on inhibiting chemoresistance and promoting apoptosis of drug-resistant TNBC cells. miR-524-5p targeted RBM39. Silencing MCM3AP-AS1 promoted apoptosis via the miR-524-5p/RBM39 axis, thereby enhancing chemosensitivity of drug-resistant TNBC cells. MCM3AP-AS1 knockdown upregulated miR-524-5p, downregulated RBM39, and restrained tumor development in vivo. MCM3AP-AS1 silencing potentiates apoptosis of drug-resistant TNBC cells by upregulating miR-524-5p and downregulating RBM39, thereby suppressing chemoresistance in TNBC.

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LncRNA MCM3AP-AS1通过miR-524-5p/RBM39轴促进三阴性乳腺癌的化疗耐药性

三阴性乳腺癌（TNBC）是乳腺癌中最致命的亚型，治疗效果不佳。有证据表明，lncRNA MCM3AP-AS1参与了BC的发展。本研究调查了MCM3AP-AS1在TNBC细胞化疗耐药性中的作用。通过增加多柔比星/多西他赛（DOX/DXL）的浓度，构建了耐药 TNBC 细胞系 SUM159PTR 和 MDA-MB-231R。通过 RT-qPCR 测定 MCM3AP-AS1 和 miR-524-5p 的表达水平。采用 Western 印迹法测定 RNA 结合基序 39 (RBM39) 的水平。细胞活力和细胞凋亡通过 CCK-8 检测法和流式细胞术进行评估。通过 ECORI 数据库预测了 miR-524-5p 与 MCM3AP-AS1 或 RBM39 的靶向结合，并通过双荧光素酶试验进行了验证。为了研究 MCM3AP-AS1、miR-524-5p 和 RBM39 之间的相互作用，我们在细胞中进行了功能增益和丧失试验。通过皮下注射MCM3AP-AS1沉默的MDA-MB-231R细胞并腹腔注射DOX/DXL，建立了TNBC异种移植小鼠模型，以验证MCM3AP-AS1在体内的作用。MCM3AP-AS1在耐药TNBC细胞中上调，沉默MCM3AP-AS1可通过促进细胞凋亡使耐药TNBC细胞对化疗药物敏感。MCM3AP-AS1靶向miR-524-5p。经 DOX/DXL 处理后，抑制 miR-524-5p 可部分逆转沉默 MCM3AP-AS1 在抑制耐药 TNBC 细胞化疗耐药性和促进其凋亡方面的作用。沉默MCM3AP-AS1可通过miR-524-5p/RBM39轴促进细胞凋亡，从而增强耐药TNBC细胞的化疗敏感性。敲除MCM3AP-AS1可上调miR-524-5p，下调RBM39，抑制体内肿瘤的发展。沉默MCM3AP-AS1可通过上调miR-524-5p和下调RBM39促进耐药TNBC细胞的凋亡，从而抑制TNBC的化疗耐药性。

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来源期刊

Molecular and Cellular Biochemistry 生物-细胞生物学

CiteScore

8.30

自引率

2.30%

发文量

293

审稿时长

1.7 months

期刊介绍： Molecular and Cellular Biochemistry: An International Journal for Chemical Biology in Health and Disease publishes original research papers and short communications in all areas of the biochemical sciences, emphasizing novel findings relevant to the biochemical basis of cellular function and disease processes, as well as the mechanics of action of hormones and chemical agents. Coverage includes membrane transport, receptor mechanism, immune response, secretory processes, and cytoskeletal function, as well as biochemical structure-function relationships in the cell. In addition to the reports of original research, the journal publishes state of the art reviews. Specific subjects covered by Molecular and Cellular Biochemistry include cellular metabolism, cellular pathophysiology, enzymology, ion transport, lipid biochemistry, membrane biochemistry, molecular biology, nuclear structure and function, and protein chemistry.