A network-based pathway-extending approach using DNA methylation and gene expression data to identify altered pathways

Li, Jie; Zhang, Qiaosheng; Chen, Zhuo; Xu, Dechen; Wang, Yadong

doi:10.1038/s41598-019-48372-1

Cited by 6 publications

(5 citation statements)

References 59 publications

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“…For example, CCP "NUPL2→HDAC4→RUNX3→LEF1→CCND1→E2F2→EZH2→CDKN2A→CDK6→TFDP2 →CDT1" in BRCA and CCP "NEK9→NUP205→HDAC4→RUNX3→LEF1→CCND1→E2F2 →EZH2→H2AFV" in COAD. Both paths had common parts and specific parts, and they were enriched for breast cancer pathways and colorectal cancer pathways related to BRCA and COAD, respectively, which was reported previously [37]. They were also enriched for pathways in cancer, which was a common core pathway related to the carcinogenesis of various cancers.…”

Section: Application In Pan-cancersupporting

confidence: 66%

“…Additionally, from the research of Li. et al [ 37 ], we obtained some pathways related to BRCA and COAD, which helped us to understand the similarity between BRCA and COAD. For example, CCP “NUPL2→HDAC4→RUNX3→LEF1→CCND1→E2F2→EZH2→CDKN2A→CDK6→TFDP2→CDT1” in BRCA and CCP “NEK9→NUP205→HDAC4→RUNX3→LEF1→CCND1→E2F2→EZH2→H2AFV” in COAD.…”

Section: Resultsmentioning

confidence: 99%

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Conserved Control Path in Multilayer Networks

Wang

et al. 2022

Entropy

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The determination of directed control paths in complex networks is important because control paths indicate the structure of the propagation of control signals through edges. A challenging problem is to identify them in complex networked systems characterized by different types of interactions that form multilayer networks. In this study, we describe a graph pattern called the conserved control path, which allows us to model a common control structure among different types of relations. We present a practical conserved control path detection method (CoPath), which is based on a maximum-weighted matching, to determine the paths that play the most consistent roles in controlling signal transmission in multilayer networks. As a pragmatic application, we demonstrate that the control paths detected in a multilayered pan-cancer network are statistically more consistent. Additionally, they lead to the effective identification of drug targets, thereby demonstrating their power in predicting key pathways that influence multiple cancers.

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Section: Application In Pan-cancersupporting

confidence: 66%

Section: Resultsmentioning

confidence: 99%

Conserved Control Path in Multilayer Networks

Wang

et al. 2022

Entropy

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“…Li et al used principal component analysis for feature reduction and sparse canonical correlation analysis to infer edge weights for gene pairs. A network-based pathway-extending approach using DNA methylation and gene expression data identified altered pathways [ 77 ]. Rather than relying on a PPI network as prior information, disease-specific regulatory networks can be inferred directly from epigenomic data.…”

Section: Network Medicine In the Clinical Setting Of Cancer Preventiomentioning

confidence: 99%

Clinical epigenetics settings for cancer and cardiovascular diseases: real-life applications of network medicine at the bedside

et al. 2021

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Despite impressive efforts invested in epigenetic research in the last 50 years, clinical applications are still lacking. Only a few university hospital centers currently use epigenetic biomarkers at the bedside. Moreover, the overall concept of precision medicine is not widely recognized in routine medical practice and the reductionist approach remains predominant in treating patients affected by major diseases such as cancer and cardiovascular diseases. By its’ very nature, epigenetics is integrative of genetic networks. The study of epigenetic biomarkers has led to the identification of numerous drugs with an increasingly significant role in clinical therapy especially of cancer patients. Here, we provide an overview of clinical epigenetics within the context of network analysis. We illustrate achievements to date and discuss how we can move from traditional medicine into the era of network medicine (NM), where pathway-informed molecular diagnostics will allow treatment selection following the paradigm of precision medicine.

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“…For example, the network study in leukemia found that both of the gene expression and methylation consistently affected the Ras, PI3K-Akt, and Rap1 signaling pathway 7 . Another study has identified novel cancer related pathway by integrating the methylation data and protein-protein interaction networks 8 . These studies used the networks that were obtained from open source databases.…”

Section: Introductionmentioning

confidence: 99%

Analyzing Integrated Network of Methylation and Gene Expression Profiles in Lung Squamous Cell Carcinoma

Heryanto

Katayama

Imoto

2022

Preprint

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Gene expression, DNA methylation, and their organizational relationships are commonly altered in lung squamous cell carcinoma (LUSC). To elucidate these complex interactions, we reconstructed a differentially expressed genes (DEGs) network and differentially methylated cytosine (DMCs) network by partial information decomposition and inverse correlation algorithm, respectively. Then, we performed graph union to integrate the networks. The community detection and enrichment analysis of the integrated network revealed the tight interaction between the gene sets of the cell cycle, keratinization, immune system, and xenobiotic metabolism in LUSC. The DMCs analysis showed that the hypomethylation targeted the gene sets that were responsible for cell cycle, keratinization, and NRF2 pathway. In other hand, hypermethylated genes affected the circulatory system development, immune system, extracellular matrix organization, and cilium organization. By centrality measurement, we detected NCAPG2, PSMG3, and FADD as hub genes which were highly connected to other nodes and might play important roles in LUSC gene dysregulation. We also found that the high betweenness centrality genes affect the patients' survival. These results showed the integrated network analysis enabled us to obtain the global view of the interactions and regulations in LUSC.

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A network-based pathway-extending approach using DNA methylation and gene expression data to identify altered pathways

Cited by 6 publications

References 59 publications

Conserved Control Path in Multilayer Networks

Conserved Control Path in Multilayer Networks

Clinical epigenetics settings for cancer and cardiovascular diseases: real-life applications of network medicine at the bedside

Analyzing Integrated Network of Methylation and Gene Expression Profiles in Lung Squamous Cell Carcinoma

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