RAD51表达的种族差异受miRNA-214-5P调控,其抑制作用与奥拉帕尼在三阴性乳腺癌中的协同作用。

Chinnadurai Mani, Ganesh Acharya, Karunakar Saamarthy, Damieanus Ochola, Srinidhi Mereddy, Kevin Pruitt, Upender Manne, Komaraiah Palle
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引用次数: 3

摘要

背景:三阴性乳腺癌(TNBC)影响年轻女性,是乳腺癌(BC)中最具侵袭性的亚型。与其他种族相比,tnbc对非洲裔美国妇女(AA)的影响尤为严重。我们已经确定DNA修复基因RAD51是TNBC的不良预后标志物,并通过microRNAs (miRNAs)进行转录后调控。本研究旨在阐明导致RAD51上调的机制,并开发新的治疗组合,以有效治疗tnbc,减少临床结果的差异。方法:使用UALCAN门户和PrognoScan对BC队列的TCGA数据进行分析,确定了tnbc中RAD51的过表达。miRNA测序发现rad51靶向miRNAs miR-214-5P和miR-142-3P显著下调。采用RT-PCR方法验证mirna和RAD51的水平,采用免疫组织化学和免疫印迹技术检测TNBC组织和细胞系中的RAD51蛋白水平。在RAD51 3'-UTR控制下进行荧光素酶测定,以证实miR-214-5P调节RAD51的表达。为了检验mir -214- 5p介导的RAD51下调对TNBC细胞同源重组(HR)的影响,我们进行了Dr-GFP报告基因检测。为了评估miR-214-5P中奥拉帕尼诱导的DNA损伤反应水平,使用转染细胞、免疫印迹和免疫荧光测定。此外,使用COMET测定DNA病变,并进行集落测定以评估brca精通的TNBC细胞对奥拉帕尼的敏感性。结果:计算机分析发现,在tnbc中,RAD51的上调是一个不良预后指标。miRNA-seq数据显示,与高加索-美国(CA)女性相比,来自AA女性的TNBC细胞系中miR-214-5P和miR-142-3P显著下调。在这些细胞系中,通过Dr-GFP测定,miR-214-5P模拟下调的RAD51表达并诱导HR缺乏。基于这些结果,我们设计了miR-214-5P和奥拉帕尼联合治疗hr精通的AA TNBC细胞系,使用克隆生存测定。在这些细胞系中,与单独处理相比,miR-214-5P和奥拉帕尼联合使用显示出协同致死性。结论:我们的研究发现了miR-214-5P对tnbc中RAD51的一种新的表观遗传调控,这表明miR-214-5P和奥拉帕尼的一种新的联合疗法可以治疗高hr tnbc,并减少治疗结果的种族差异。
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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Racial differences in RAD51 expression are regulated by miRNA-214-5P and its inhibition synergizes with olaparib in triple-negative breast cancer.

Background: Triple-negative breast cancer (TNBC) affects young women and is the most aggressive subtype of breast cancer (BC). TNBCs disproportionally affect women of African-American (AA) descent compared to other ethnicities. We have identified DNA repair gene RAD51 as a poor prognosis marker in TNBC and its posttranscriptional regulation through microRNAs (miRNAs). This study aims to delineate the mechanisms leading to RAD51 upregulation and develop novel therapeutic combinations to effectively treat TNBCs and reduce disparity in clinical outcomes.

Methods: Analysis of TCGA data for BC cohorts using the UALCAN portal and PrognoScan identified the overexpression of RAD51 in TNBCs. miRNA sequencing identified significant downregulation of RAD51-targeting miRNAs miR-214-5P and miR-142-3P. RT-PCR assays were used to validate the levels of miRNAs and RAD51, and immunohistochemical and immunoblotting techniques were used similarly for RAD51 protein levels in TNBC tissues and cell lines. Luciferase assays were performed under the control of RAD51 3'-UTR to confirm that miR-214-5P regulates RAD51 expression. To examine the effect of miR-214-5P-mediated downregulation of RAD51 on homologous recombination (HR) in TNBC cells, Dr-GFP reporter assays were performed. To assess the levels of olaparib-induced DNA damage responses in miR-214-5P, transfected cells, immunoblots, and immunofluorescence assays were used. Furthermore, COMET assays were used to measure DNA lesions and colony assays were performed to assess the sensitivity of BRCA-proficient TNBC cells to olaparib.

Results: In-silico analysis identified upregulation of RAD51 as a poor prognostic marker in TNBCs. miRNA-seq data showed significant downregulation of miR-214-5P and miR-142-3P in TNBC cell lines derived from AA women compared to Caucasian-American (CA) women. miR-214-5P mimics downregulated RAD51 expression and induces HR deficiency as measured by Dr-GFP assays in these cell lines. Based on these results, we designed a combination treatment of miR-214-5P and olaparib in HR-proficient AA TNBC cell lines using clonogenic survival assays. The combination of miR-214-5P and olaparib showed synergistic lethality compared to individual treatments in these cell lines.

Conclusions: Our studies identified a novel epigenetic regulation of RAD51 in TNBCs by miR-214-5P suggesting a novel combination therapies involving miR-214-5P and olaparib to treat HR-proficient TNBCs and to reduce racial disparity in therapeutic outcomes.

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