LncRNA HOXA-AS2 Promotes Temozolomide Resistance in Glioblastoma by Regulated miR-302a-3p/IGF1 Axis.

IF 1.4 4区 生物学 Q4 GENETICS & HEREDITY
Ligang Lin, Da Lin, Lingjiang Jin, Junyou Wang, Zheng Lin, Shuai Zhang, Gaojun Lin
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引用次数: 2

Abstract

Background: Glioblastoma (GBM) is a highly prevalent brain tumor characterized by high rates of morbidity, recurrence, and mortality. While temozolomide (TMZ) is commonly used as a first-line treatment for this cancer, the emergence of TMZ resistance limits its utility. The long noncoding RNA HOXA-AS2 reportedly drives GBM progression, but whether it can influence therapeutic resistance to TMZ has yet to be established.

Methods: HOXA-AS2 expression was analyzed in TMZ-resistant and sensitive GBM tissue samples and cell lines by qPCR. A siRNA-based approach was used to knock down HOXA-AS2 in GBM cells, after which TMZ resistance was tested. Bioinformatics approaches were used to predict miRNA binding targets of HOXA-AS2, after which a series of luciferase reporter assay and rescue experiments with appropriate miRNA inhibitor/mimic constructs were performed to validate these predictions and to clarify the ability of HOXA-AS2 to regulate chemoresistant activity.

Results: TMZ-resistant GBM patients and cell lines exhibited increased HOXA-AS2 expression that was correlated with worse overall survival. Knocking down HOXA-AS2 increased the sensitivity of resistant GBM cells to TMZ. miR-302a-3p was identified as a HOXA-AS2 target confirmed through luciferase reporter assays and rescue experiments, and IGF1 was further identified as a confirmed miR-302a-3p target. In addition, HOXA-AS2 knockdown resulted in a corresponding drop in IGF1 expression consistent with indirect regulation mediated by miR-302a-3p.

Conclusion: In summary, these results highlight the role of HOXA-AS2 as a driver of TMZ resistance in GBM through its ability to regulate the miR-302a-3p/IGF1 signaling axis, highlighting this pathway as a promising target for the diagnosis, therapeutic sensitization, and/or treatment of affected patients.

Abstract Image

Abstract Image

Abstract Image

LncRNA HOXA-AS2通过调节miR-302a-3p/IGF1轴促进胶质母细胞瘤对替莫唑胺的耐药。
背景:胶质母细胞瘤(GBM)是一种高度流行的脑肿瘤,其特点是发病率、复发率和死亡率高。虽然替莫唑胺(TMZ)通常被用作治疗这种癌症的一线药物,但TMZ耐药性的出现限制了其效用。据报道,长链非编码RNA HOXA-AS2驱动GBM进展,但它是否会影响对TMZ的治疗性耐药尚未确定。方法:采用qPCR方法分析HOXA-AS2在tmz耐药和敏感GBM组织样本和细胞系中的表达。采用基于sirna的方法敲除GBM细胞中的HOXA-AS2,然后测试TMZ抗性。利用生物信息学方法预测了HOXA-AS2的miRNA结合靶点,之后进行了一系列荧光素酶报告基因试验和适当的miRNA抑制剂/模拟物构建的拯救实验来验证这些预测,并阐明了HOXA-AS2调节化学耐药活性的能力。结果:tmz耐药GBM患者和细胞系显示HOXA-AS2表达增加,这与总生存期较差相关。敲除HOXA-AS2增加了耐药GBM细胞对TMZ的敏感性。通过荧光素酶报告基因检测和抢救实验,miR-302a-3p被确定为HOXA-AS2的靶标,IGF1被进一步确定为已确认的miR-302a-3p靶标。此外,HOXA-AS2敲低导致IGF1表达相应下降,这与miR-302a-3p介导的间接调控一致。结论:总之,这些结果突出了HOXA-AS2通过调节miR-302a-3p/IGF1信号轴的能力,在GBM中作为TMZ耐药的驱动因素的作用,突出了该途径作为受影响患者的诊断、治疗致敏和/或治疗的有希望的靶点。
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来源期刊
Genetics research
Genetics research 生物-遗传学
自引率
6.70%
发文量
74
审稿时长
>12 weeks
期刊介绍: Genetics Research is a key forum for original research on all aspects of human and animal genetics, reporting key findings on genomes, genes, mutations and molecular interactions, extending out to developmental, evolutionary, and population genetics as well as ethical, legal and social aspects. Our aim is to lead to a better understanding of genetic processes in health and disease. The journal focuses on the use of new technologies, such as next generation sequencing together with bioinformatics analysis, to produce increasingly detailed views of how genes function in tissues and how these genes perform, individually or collectively, in normal development and disease aetiology. The journal publishes original work, review articles, short papers, computational studies, and novel methods and techniques in research covering humans and well-established genetic organisms. Key subject areas include medical genetics, genomics, human evolutionary and population genetics, bioinformatics, genetics of complex traits, molecular and developmental genetics, Evo-Devo, quantitative and statistical genetics, behavioural genetics and environmental genetics. The breadth and quality of research make the journal an invaluable resource for medical geneticists, molecular biologists, bioinformaticians and researchers involved in genetic basis of diseases, evolutionary and developmental studies.
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