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BACKGROUND

There has been a significant surge in the global prevalence of diabetes mellitus (DM), which increases the susceptibility of individuals to ovarian cancer (OC). However, the relationship between DM and OC remains largely unexplored. The objective of this study is to provide preliminary insights into the shared molecular regulatory mechanisms and potential biomarkers between DM and OC.

METHODS

Multiple datasets from the GEO database were utilized for bioinformatics analysis. Single cell datasets from the GEO database were analysed. Subsequently, immune cell infiltration analysis was performed on mRNA expression data. The intersection of these datasets yielded a set of common genes associated with both OC and DM. Using these overlapping genes and Cytoscape, a protein‒protein interaction (PPI) network was constructed, and 10 core targets were selected. Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) enrichment analyses were then conducted on these core targets. Additionally, advanced bioinformatics analyses were conducted to construct a TF-mRNA-miRNA coregulatory network based on identified core targets. Furthermore, immunohistochemistry staining (IHC) and real-time quantitative PCR (RT-qPCR) were employed for the validation of the expression and biological functions of core proteins, including HSPAA1, HSPA8, SOD1, and transcription factors SREBF2 and GTAT2, in ovarian tumors.

RESULTS

The immune cell infiltration analysis based on mRNA expression data for both DM and OC, as well as analysis using single-cell datasets, reveals significant differences in mononuclear cell levels. By intersecting the single-cell datasets, a total of 119 targets related to mononuclear cells in both OC and DM were identified. PPI network analysis further identified 10 hub genesincludingHSP90AA1, HSPA8, SNRPD2, UBA52, SOD1, RPL13A, RPSA, ITGAM, PPP1CC, and PSMA5, as potential targets of OC and DM. Enrichment analysis indicated that these genes are primarily associated with neutrophil degranulation, GDP-dissociation inhibitor activity, and the IL-17 signaling pathway, suggesting their involvement in the regulation of the tumor microenvironment. Furthermore, the TF-gene and miRNA-gene regulatory networks were validated using NetworkAnalyst. The identified TFs included SREBF2, GATA2, and SRF, while the miRNAs included miR-320a, miR-378a-3p, and miR-26a-5p. Simultaneously, IHC and RT-qPCR reveal differential expression of core targets in ovarian tumors after the onset of diabetes. RT-qPCR further revealed that SREBF2 and GATA2 may influence the expression of core proteins, including HSP90AA1, HSPA8, and SOD1.

CONCLUSION

This study revealed the shared gene interaction network between OC and DM and predicted the TFs and miRNAs associated with core genes in monocytes. Our research findings contribute to identifying potential biological mechanisms underlying the relationship between OC and DM.

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

全球糖尿病（DM）的患病率显著上升，这增加了个体患卵巢癌（OC）的易感性。然而，DM 和 OC 之间的关系在很大程度上仍未得到探索。本研究旨在为 DM 和 OC 之间共享的分子调控机制和潜在生物标志物提供初步见解。

方法

使用 GEO 数据库中的多个数据集进行生物信息学分析。对 GEO 数据库中的单细胞数据集进行分析。随后，对 mRNA 表达数据进行免疫细胞浸润分析。这些数据集的交集产生了一组与 OC 和 DM 都相关的共同基因。使用这些重叠基因和 Cytoscape，构建了一个蛋白质-蛋白质相互作用（PPI）网络，并选择了 10 个核心靶点。对这些核心靶点进行基因本体论（GO）和京都基因与基因组百科全书（KEGG）富集分析。此外，还进行了高级生物信息学分析，以基于鉴定的核心靶点构建 TF-mRNA-miRNA 核心调控网络。此外，通过免疫组织化学染色（IHC）和实时定量 PCR（RT-qPCR）验证核心蛋白（包括 HSPAA1、HSPA8、SOD1 和转录因子 SREBF2 和 GTAT2）在卵巢肿瘤中的表达和生物学功能。

结果

基于 DM 和 OC 的 mRNA 表达数据的免疫细胞浸润分析以及单细胞数据集的分析表明单核细胞水平存在显著差异。通过对单细胞数据集进行交集，总共鉴定出与 OC 和 DM 中单核细胞相关的 119 个靶标。PPI 网络分析进一步确定了 10 个核心基因，包括 HSP90AA1、HSPA8、SNRPD2、UBA52、SOD1、RPL13A、RPSA、ITGAM、PPP1CC 和 PSMA5，作为 OC 和 DM 的潜在靶点。富集分析表明，这些基因主要与中性粒细胞脱颗粒、GDP 解离抑制剂活性和 IL-17 信号通路相关，提示它们参与了肿瘤微环境的调节。此外，使用 NetworkAnalyst 验证了 TF-基因和 miRNA-基因调控网络。鉴定的 TFs 包括 SREBF2、GATA2 和 SRF，而 miRNAs 包括 miR-320a、miR-378a-3p 和 miR-26a-5p。同时，IHC 和 RT-qPCR 显示糖尿病发病后卵巢肿瘤中核心靶标的差异表达。RT-qPCR 进一步表明，SREBF2 和 GATA2 可能影响 HSP90AA1、HSPA8 和 SOD1 等核心蛋白的表达。