Integrative Genomic and Functional Approaches Identify FUOM as a Key Driver and Therapeutic Target in Cervical Cancer

IF 1.9 Q4 ONCOLOGY

Cancer reports Pub Date : 2025-08-16 DOI:10.1002/cnr2.70306

Wenzhi Jiao, Shanshan Liu, Jianwei Shi, Minmin Yu

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Abstract

Background

Cervical cancer remains a global public health challenge, particularly in regions with limited access to screening and vaccination. While high-risk HPV infection is the primary cause, the genetic and molecular mechanisms driving cervical cancer progression are not fully understood.

Objective

This study integrates Mendelian randomization (MR) and single-cell RNA sequencing (scRNA-seq) to identify causal eQTL-related genes and explore their roles in tumorigenesis. Functional experiments were conducted to validate key findings.

Methods

MR analysis identified eQTL-related genes with significant causal associations with cervical cancer. Functional enrichment and Gene Set Variation Analysis (GSVA) revealed their involvement in key pathways. scRNA-seq explored cell-specific expression patterns and immune cell infiltration in the tumor microenvironment (TME). In vitro experiments, including qRT-PCR, siRNA knockdown, migration, proliferation, and colony formation assays, validated the biological roles of pivotal genes.

Results

A total of 307 eQTL-related genes were identified, enriched in pathways such as Th17 cell differentiation, TNF, and IL-17 signaling. scRNA-seq revealed cell-specific expression of key genes, including FUOM, which was elevated in cervical cancer cells. FUOM knockdown significantly reduced cell proliferation (by 37%, p < 0.001), migration (by 43%, p < 0.001), and colony formation (by 62%, p < 0.001). Regulatory analysis identified miRNAs as upstream modulators of these genes.

Conclusion

This study identifies FUOM as a novel driver gene in cervical cancer progression and highlights its role in tumorigenesis and immune modulation. These findings provide insights into potential biomarkers and therapeutic targets, offering a foundation for personalized treatment strategies.

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综合基因组和功能方法确定FUOM是宫颈癌的关键驱动因素和治疗靶点

宫颈癌仍然是全球公共卫生挑战，特别是在获得筛查和疫苗接种机会有限的地区。虽然高危HPV感染是主要原因，但驱动宫颈癌进展的遗传和分子机制尚不完全清楚。目的本研究结合孟德尔随机化（MR）和单细胞RNA测序（scRNA-seq）技术，鉴定eqtl相关基因，探讨其在肿瘤发生中的作用。进行功能实验以验证关键发现。方法磁共振分析发现与宫颈癌有显著因果关系的eqtl相关基因。功能富集和基因集变异分析（GSVA）揭示了它们参与关键通路。scRNA-seq研究肿瘤微环境（TME）中细胞特异性表达模式和免疫细胞浸润。体外实验，包括qRT-PCR、siRNA敲低、迁移、增殖和集落形成实验，验证了关键基因的生物学作用。结果共鉴定出307个eqtl相关基因，富集于Th17细胞分化、TNF和IL-17信号通路。scRNA-seq揭示了包括FUOM在内的关键基因在宫颈癌细胞中的细胞特异性表达。FUOM敲低显著降低了细胞增殖（37%,p < 0.001）、迁移（43%,p < 0.001）和菌落形成（62%,p < 0.001）。调控分析发现mirna是这些基因的上游调节剂。结论本研究确定了FUOM是宫颈癌进展的一个新的驱动基因，并强调了其在肿瘤发生和免疫调节中的作用。这些发现为潜在的生物标志物和治疗靶点提供了见解，为个性化治疗策略提供了基础。

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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