Master Regulators Associated with Poor Prognosis in Glioblastoma Multiforme

IF 0.6 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY
M. Kalya, T. Beißbarth, A. E. Kel
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引用次数: 2

Abstract

Glioblastoma multiforme is a highly malignant brain tumor with average survival time of 15 months. Less than 2% of the patients survive beyond 36 months. To understand the molecular mechanism responsible for poor prognosis, we analyzed GBM samples of TCGA microarray (n = 560) data. We identified 720 genes that have a significant impact upon survival based on univariate cox regression. We applied the Genome Enhancer pipeline to analyze potential mechanisms of regulation of activity of these genes and to build gene regulatory networks. We identified 12 transcription factors enriched in the promoters of these genes including the key molecule of GBM—STAT3. We found that STAT3 has significant differential expression across extreme survivor groups (short-term survivors– survival < 12 months and long-term survivors—survival > 36 months) and also has significant impact on survival. In the next step, we identified master regulators in the signal transduction network that regulate the activity of these transcription factors. Master regulators are filtered based on their differential expression across extreme survivor groups and impact on survival. This work validates our earlier report on master regulators IGFBP2, PDGFA, OSMR and AEBP1 driving short survival. Additionally, we propose CD14, CD44, DUSP6, GRB10, IL1RAP, FGFR3 and POSTN as master regulators driving poor survival. These master regulators are proposed as promising therapeutic targets to counter poor prognosis in GBM. Finally, the algorithm has prioritized several drugs for the further study as potential remedies to conquer the aggressive forms of GBM and to extend survival of the patients.

多形性胶质母细胞瘤与预后不良相关的主要调控因子
多形性胶质母细胞瘤是一种高度恶性的脑肿瘤,平均生存时间为15个月。不到2%的患者存活超过36个月。为了了解导致预后不良的分子机制,我们分析了TCGA微阵列的GBM样本(n = 560)数据。基于单变量cox回归,我们确定了720个对生存有重大影响的基因。我们利用基因组增强子管道来分析这些基因活性调控的潜在机制,并构建基因调控网络。我们确定了12个转录因子富集于这些基因的启动子中,包括GBM-STAT3的关键分子。我们发现STAT3在极端幸存者组(短期幸存者-生存<12个月和长期存活者-存活;36个月),对生存率也有显著影响。在下一步中,我们确定了信号转导网络中调节这些转录因子活性的主调控因子。根据极端幸存者群体的差异表达和对生存的影响,对主要调节因子进行筛选。这项工作验证了我们之前关于主要调节因子IGFBP2、PDGFA、OSMR和AEBP1驱动短生存期的报告。此外,我们提出CD14、CD44、DUSP6、GRB10、IL1RAP、FGFR3和POSTN是导致生存不良的主要调控因子。这些主要调节因子被认为是对抗GBM不良预后的有希望的治疗靶点。最后,该算法优先选择了几种药物作为进一步研究的潜在补救措施,以征服侵袭性GBM形式并延长患者的生存期。
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来源期刊
CiteScore
1.10
自引率
0.00%
发文量
31
期刊介绍: Biochemistry (Moscow), Supplement Series B: Biomedical Chemistry   covers all major aspects of biomedical chemistry and related areas, including proteomics and molecular biology of (patho)physiological processes, biochemistry, neurochemistry, immunochemistry and clinical chemistry, bioinformatics, gene therapy, drug design and delivery, biochemical pharmacology, introduction and advertisement of new (biochemical) methods into experimental and clinical medicine. The journal also publishes review articles. All issues of the journal usually contain solicited reviews.
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