Comprehensive analysis of lncRNA‐TF crosstalks and identification of prognostic regulatory feedback loops of glioblastoma using lncRNA/TF‐mediated ceRNA network

Glioblastoma (GBM) has become the most aggressive primary brain tumor in the world. Patients with GBM usually have a poor prognosis. The median survival times of GBM patients retain less than 2 years. Thus, it is urgent to investigate the molecular mechanism of GBM. Recently, studies have demonstrat...

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Bibliographic Details
Published in:Journal of cellular biochemistry 2020-01, Vol.121 (1), p.755-767
Main Authors: Ji, Yang, Gu, Yaqin, Hong, Shuai, Yu, Bo, Zhang, Jian‐Hua, Liu, Jin‐Na
Format: Article
Language:English
Subjects:
Biological activity
Biomarkers, Tumor - genetics
Biomarkers, Tumor - metabolism
Brain cancer
Brain tumors
ceRNA networks
Control theory
core lncRNA‐TF crosstalks
Feature extraction
Feedback
Feedback loops
Feedback, Physiological
Gene Expression Profiling
Gene Expression Regulation, Neoplastic
Gene Regulatory Networks
Glioblastoma
Glioblastoma - genetics
Glioblastoma - metabolism
Glioblastoma - pathology
Humans
Medical prognosis
MicroRNAs - genetics
MicroRNAs - metabolism
Modules
Prognosis
Ribonucleic acid
Risk analysis
Risk factors
RNA
RNA, Long Noncoding - genetics
RNA, Long Noncoding - metabolism
survival biomarkers
Survival Rate
Therapeutic applications
Topology
Transcription factors
Transcription Factors - genetics
Transcription Factors - metabolism
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Summary:Glioblastoma (GBM) has become the most aggressive primary brain tumor in the world. Patients with GBM usually have a poor prognosis. The median survival times of GBM patients retain less than 2 years. Thus, it is urgent to investigate the molecular mechanism of GBM. Recently, studies have demonstrated that transcription factors (TFs) participate in cancer pathology by regulating long noncoding RNAs (lncRNAs). However, the functional and regulatory roles of TF‐lncRNA crosstalks are still unclear. In this study, we constructed a global lncRNA‐TF network (GLTN) based on competing endogenous RNA. As a result, some topological features of GLTN were identified. A known GBM lncRNA MCM3AP‐AS1 showed multiple central topological features in GLTN. Furthermore, we identified hub genes and extracted the hub‐hub pairs from GLTN to form a hub associated lncRNA‐TF network (HALTN). Results showed that a risk model combined with multiple hubs had a significant effect on prognosis. Additionally, we performed module searching and two functional modules from HALTN were identified, which were confirmed as risk factors of GBM. More importantly, we also identified some core lncRNA‐TF crosstalks that might form feedback loops to control the biological processes in GBM. Our results demonstrated that the synergistic, competitive lncRNA‐TF crosstalks played an important role in pathological processes of GBM, and had strong effect on prognosis. All these results can help us to uncover the molecular mechanism and provide a new therapeutic target for GBM. 1. A global view of long noncoding RNA transcription factor (lncRNA‐TF) crosstalks was constructed for glioblastoma (GBM) investigation. 2. Integration of competing endogenous RNA (ceRNA) crosstalks and TF‐DNA binding, some core lncRNA‐TF feedback loops with strong prognostic effect were identified.
ISSN:0730-2312
1097-4644
DOI:10.1002/jcb.29321