Transcriptional and post-transcriptional regulation of CARMN and its anti-tumor function in cervical cancer through autophagic flux blockade and MAPK cascade inhibition.

IF 11.4 1区 医学 Q1 ONCOLOGY Journal of Experimental & Clinical Cancer Research Pub Date : 2024-11-19 DOI:10.1186/s13046-024-03229-y
Xing Zhang, Wenjing Yan, Hua Jin, Bingjia Yu, Hao Zhang, Bo Ding, Xue Chen, Yan Zhang, Qianqian Xia, Dan Meng, Jing Hu, Haohan Liu, Yamei Nie, Fengying Liu, Yun Zheng, Yiran Lu, Juan Wang, Mulong Du, Meilin Wang, Evan Yi-Wen Yu, Xiuting Li, Shizhi Wang
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Abstract

Background: LncRNAs play essential roles in multiple tumors. However, research on genome-wide lncRNA alterations and their functions in cervical cancer (CC) is limited. This study aims to explore key lncRNAs in CC progression and uncover the molecular mechanisms involved in the development of CC.

Methods: In this study, we analyzed 30 tissues from CC, cervical intraepithelial neoplasia (CIN), and normal (NOR) using transcriptome sequencing and weighted gene co-expression network analysis to establish gene modules related to the NOR-CIN-CC transition. Machine learning diagnostic models were employed to investigate the role of lncRNAs in this transition. Molecular biological experiments were conducted to elucidate the potential mechanisms of CARMN in CC, with a particular focus on its transcriptional and post-transcriptional regulation of abnormal expression in CC.

Results: CARMN was identified as a hub gene in two modules significantly associated with the NOR-CIN-CC transition. Analysis using ten machine learning models confirmed its critical role in this progression. The results of RNA-seq, qPCR and RNAScope performed in another cohort of 83 cervical tissues all showed that CARMN was significantly downregulated in CC. CARMN significantly enhanced the interaction between Keap1 and Nrf2, leading to increased ROS levels. The elevated ROS levels suppressed the Akt/mTOR signaling pathway, leading to autophagy arrest via autophagic flux blockade. Additionally, CARMN interacted with TFAP2α to repress MAPK13 transcription, further inhibiting the MAPK cascade. A promoter SNP (rs12517403) was found to increase CC risk (OR = 1.34, 95% CI = 1.11-1.61) and reduce CARMN expression by decreasing SP1 binding. Furthermore, the RNA binding proteins that could modulate CARMN RNA stability were also determined using RNA-pulldown assay. The results demonstrated that YBX1, a component of the coding region instability determinant (CRD)-mediated mRNA stabilization complex, promoted CARMN RNA stability. DHX9, another component of complex, acted as a scaffold to bridge YBX1 and CARMN.

Conclusions: CARMN exerts an anti-cancer effect in CC progression by inhibiting the Akt-mTOR and MAPK signaling pathways. rs12517403 and the YBX1/DHX9 complex are key mechanisms influencing its transcription and stability in CC cells. CARMN represents a promising biomarker for CC diagnosis and therapeutic target.

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CARMN的转录和转录后调控及其通过自噬通路阻断和MAPK级联抑制在宫颈癌中的抗肿瘤功能。
背景:LncRNA在多种肿瘤中发挥着重要作用。然而,有关全基因组lncRNA改变及其在宫颈癌(CC)中功能的研究还很有限。本研究旨在探索CC进展过程中的关键lncRNA,并揭示参与CC发展的分子机制:在这项研究中,我们利用转录组测序和加权基因共表达网络分析技术分析了30例CC、宫颈上皮内瘤变(CIN)和正常(NOR)组织,以建立与NOR-CIN-CC转变相关的基因模块。利用机器学习诊断模型研究了lncRNA在这一转变中的作用。进行了分子生物学实验,以阐明CARMN在CC中的潜在机制,尤其关注其对CC中异常表达的转录和转录后调控:结果:CARMN被确定为与NOR-CIN-CC转变显著相关的两个模块中的枢纽基因。使用十个机器学习模型进行的分析证实了CARMN在这一进展中的关键作用。在另一批 83 例宫颈组织中进行的 RNA-seq、qPCR 和 RNAScope 结果均显示,CARMN 在 CC 中明显下调。CARMN 明显增强了 Keap1 和 Nrf2 之间的相互作用,导致 ROS 水平升高。ROS 水平的升高抑制了 Akt/mTOR 信号通路,通过自噬通路阻断导致自噬停止。此外,CARMN 与 TFAP2α 相互作用,抑制了 MAPK13 的转录,进一步抑制了 MAPK 级联。研究发现,一个启动子 SNP(rs12517403)会增加 CC 风险(OR = 1.34,95% CI = 1.11-1.61),并通过减少 SP1 结合来降低 CARMN 的表达。此外,还利用 RNA-pulldown 试验确定了可调节 CARMN RNA 稳定性的 RNA 结合蛋白。结果表明,编码区不稳定性决定因子(CRD)介导的mRNA稳定复合物的一个成分YBX1促进了CARMN RNA的稳定性。DHX9是复合物的另一个成分,它是连接YBX1和CARMN的支架:rs12517403和YBX1/DHX9复合物是影响CARMN在CC细胞中转录和稳定性的关键机制。CARMN是一种很有前景的CC诊断生物标志物和治疗靶标。
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来源期刊
CiteScore
18.20
自引率
1.80%
发文量
333
审稿时长
1 months
期刊介绍: The Journal of Experimental & Clinical Cancer Research is an esteemed peer-reviewed publication that focuses on cancer research, encompassing everything from fundamental discoveries to practical applications. We welcome submissions that showcase groundbreaking advancements in the field of cancer research, especially those that bridge the gap between laboratory findings and clinical implementation. Our goal is to foster a deeper understanding of cancer, improve prevention and detection strategies, facilitate accurate diagnosis, and enhance treatment options. We are particularly interested in manuscripts that shed light on the mechanisms behind the development and progression of cancer, including metastasis. Additionally, we encourage submissions that explore molecular alterations or biomarkers that can help predict the efficacy of different treatments or identify drug resistance. Translational research related to targeted therapies, personalized medicine, tumor immunotherapy, and innovative approaches applicable to clinical investigations are also of great interest to us. We provide a platform for the dissemination of large-scale molecular characterizations of human tumors and encourage researchers to share their insights, discoveries, and methodologies with the wider scientific community. By publishing high-quality research articles, reviews, and commentaries, the Journal of Experimental & Clinical Cancer Research strives to contribute to the continuous improvement of cancer care and make a meaningful impact on patients' lives.
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