Gene co-expression network construction and analysis for identification of genetic biomarkers associated with glioblastoma multiforme using topological findings.

IF 2.1 Q3 ONCOLOGY
Seema Sandeep Redekar, Satishkumar L Varma, Atanu Bhattacharjee
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引用次数: 0

Abstract

Background: Glioblastoma multiforme (GBM) is one of the most malignant types of central nervous system tumors. GBM patients usually have a poor prognosis. Identification of genes associated with the progression of the disease is essential to explain the mechanisms or improve the prognosis of GBM by catering to targeted therapy. It is crucial to develop a methodology for constructing a biological network and analyze it to identify potential biomarkers associated with disease progression.

Methods: Gene expression datasets are obtained from TCGA data repository to carry out this study. A survival analysis is performed to identify survival associated genes of GBM patient. A gene co-expression network is constructed based on Pearson correlation between the gene's expressions. Various topological measures along with set operations from graph theory are applied to identify most influential genes linked with the progression of the GBM.

Results: Ten key genes are identified as a potential biomarkers associated with GBM based on centrality measures applied to the disease network. These genes are SEMA3B, APS, SLC44A2, MARK2, PITPNM2, SFRP1, PRLH, DIP2C, CTSZ, and KRTAP4.2. Higher expression values of two genes, SLC44A2 and KRTAP4.2 are found to be associated with progression and lower expression values of seven gens SEMA3B, APS, MARK2, PITPNM2, SFRP1, PRLH, DIP2C, and CTSZ are linked with the progression of the GBM.

Conclusions: The proposed methodology employing a network topological approach to identify genetic biomarkers associated with cancer.

多形性胶质母细胞瘤的基因共表达网络构建及遗传生物标志物鉴定。
背景:多形性胶质母细胞瘤(GBM)是恶性程度最高的中枢神经系统肿瘤之一。GBM患者通常预后较差。鉴定与疾病进展相关的基因对于解释机制或通过靶向治疗改善GBM的预后至关重要。开发一种构建生物网络的方法并对其进行分析以识别与疾病进展相关的潜在生物标志物是至关重要的。方法:从TCGA数据库中获取基因表达数据集进行研究。进行生存分析以确定GBM患者的生存相关基因。基于基因表达之间的Pearson相关性,构建了基因共表达网络。各种拓扑度量以及图论中的集合运算被应用于识别与GBM进展相关的最具影响力的基因。结果:基于应用于疾病网络的中心性测量,十个关键基因被确定为与GBM相关的潜在生物标志物。这些基因是SEMA3B、APS、SLC44A2、MARK2、PITPNM2、SFRP1、PRLH、DIP2C、CTSZ和KRTAP4.2。SLC44A2和KRTAP4.2两个基因的高表达值与GBM的进展有关,而SEMA3B、APS、MARK2、PITPNM2、SFRP1、PRLH、DIP2C和CTSZ七个基因的低表达值与GBM的进展有关。结论:提出的方法采用网络拓扑方法来识别与癌症相关的遗传生物标志物。
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来源期刊
CiteScore
3.50
自引率
0.00%
发文量
46
审稿时长
11 weeks
期刊介绍: As the official publication of the National Cancer Institute, Cairo University, the Journal of the Egyptian National Cancer Institute (JENCI) is an open access peer-reviewed journal that publishes on the latest innovations in oncology and thereby, providing academics and clinicians a leading research platform. JENCI welcomes submissions pertaining to all fields of basic, applied and clinical cancer research. Main topics of interest include: local and systemic anticancer therapy (with specific interest on applied cancer research from developing countries); experimental oncology; early cancer detection; randomized trials (including negatives ones); and key emerging fields of personalized medicine, such as molecular pathology, bioinformatics, and biotechnologies.
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