Evaluation of secretome biomarkers in glioblastoma cancer stem cells: A bioinformatics analysis

IF 1.5 Q4 ONCOLOGY Cancer reports Pub Date : 2024-07-05 DOI:10.1002/cnr2.2080

Ehsan Jangholi, Hoda Ahmari Tehran, Afsaneh Ghasemi, Mohammad Hoseinian, Sina Firoozi, Seyed Mohammad Ghodsi, Mona Tamaddon, Ahmad Bereimipour, Mahmoudreza Hadjighassem

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Abstract

Background

Glioblastoma (GBM) is a malignant brain tumor that frequently occurs alongside other central nervous system (CNS) conditions. The secretome of GBM cells contains a diverse array of proteins released into the extracellular space, influencing the tumor microenvironment. These proteins can serve as potential biomarkers for GBM due to their involvement in key biological processes, exploring the secretome biomarkers in GBM research represents a cutting-edge strategy with significant potential for advancing diagnostic precision, treatment monitoring, and ultimately improving outcomes for patients with this challenging brain cancer.

Aim

This study was aimed to investigate the roles of secretome biomarkers and their pathwayes in GBM through bioinformatics analysis.

Methods and Results

Using data from the Gene Expression Omnibus and the Cancer Genome Atlas datasets—where both healthy and cancerous samples were analyzed—we used a quantitative analytical framework to identify differentially expressed genes (DEGs) and cell signaling pathways that might be related to GBM. Then, we performed gene ontology studies and hub protein identifications to estimate the roles of these DEGs after finding disease-gene connection networks and signaling pathways. Using the GEPIA Proportional Hazard Model and the Kaplan–Meier estimator, we widened our analysis to identify the important genes that may play a role in both progression and the survival of patients with GBM. In total, 890 DEGs, including 475 and 415 upregulated and downregulated were identified, respectively. Our results revealed that SQLE, DHCR7, delta-1 phospholipase C (PLCD1), and MINPP1 genes are highly expressed, and the Enolase 2 (ENO2) and hexokinase-1 (HK1) genes are low expressions.

Conclusion

Hence, our findings suggest novel mechanisms that affect the occurrence of GBM development, growth, and/or establishment and may also serve as secretory biomarkers for GBM prognosis and possible targets for therapy. So, continued research in this field may uncover new avenues for therapeutic interventions and contribute to the ongoing efforts to combat GBM effectively.

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评估胶质母细胞瘤癌症干细胞的分泌组生物标志物：生物信息学分析

背景：胶质母细胞瘤（GBM）是一种恶性脑肿瘤，经常与其他中枢神经系统（CNS）疾病同时发生。胶质母细胞瘤细胞的分泌物组包含多种释放到细胞外空间的蛋白质，对肿瘤微环境产生影响。由于这些蛋白质参与了关键的生物过程，因此可以作为GBM的潜在生物标志物，在GBM研究中探索分泌组生物标志物是一种前沿策略，在提高诊断精确度、治疗监测以及最终改善这种具有挑战性的脑癌患者的预后方面具有巨大潜力。目的：本研究旨在通过生物信息学分析研究分泌组生物标志物及其通路在GBM中的作用：利用基因表达总库（Gene Expression Omnibus）和癌症基因组图谱（Cancer Genome Atlas）数据集中的数据--健康样本和癌症样本都在其中进行了分析--我们采用定量分析框架来识别可能与GBM相关的差异表达基因（DEGs）和细胞信号通路。然后，我们进行了基因本体研究和中心蛋白鉴定，在找到疾病-基因连接网络和信号通路后，估计这些 DEGs 的作用。利用 GEPIA 比例危险模型和 Kaplan-Meier 估计器，我们扩大了分析范围，找出了可能对 GBM 患者的病情发展和生存都有影响的重要基因。我们共发现了 890 个 DEGs，包括 475 个上调基因和 415 个下调基因。结果显示，SQLE、DHCR7、δ-1磷脂酶C（PLCD1）和MINPP1基因表达较高，而烯醇化酶2（ENO2）和己糖激酶1（HK1）基因表达较低：因此，我们的研究结果提示了影响 GBM 发生、生长和/或建立的新机制，也可作为 GBM 预后的分泌性生物标志物和可能的治疗靶点。因此，在这一领域的持续研究可能会发现治疗干预的新途径，并为有效防治 GBM 的持续努力做出贡献。

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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