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Prioritizing cancer-related genes with aberrant methylation based on a weighted protein-protein interaction network

BACKGROUND: As an important epigenetic modification, DNA methylation plays a crucial role in the development of mammals and in the occurrence of complex diseases. Genes that interact directly or indirectly may have the same or similar functions in the biological processes in which they are involved...

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Autores principales: Liu, Hui, Su, Jianzhong, Li, Junhua, Liu, Hongbo, Lv, Jie, Li, Boyan, Qiao, Hong, Zhang, Yan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: BioMed Central 2011
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3224234/
https://www.ncbi.nlm.nih.gov/pubmed/21985575
http://dx.doi.org/10.1186/1752-0509-5-158
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author Liu, Hui
Su, Jianzhong
Li, Junhua
Liu, Hongbo
Lv, Jie
Li, Boyan
Qiao, Hong
Zhang, Yan
author_facet Liu, Hui
Su, Jianzhong
Li, Junhua
Liu, Hongbo
Lv, Jie
Li, Boyan
Qiao, Hong
Zhang, Yan
author_sort Liu, Hui
collection PubMed
description BACKGROUND: As an important epigenetic modification, DNA methylation plays a crucial role in the development of mammals and in the occurrence of complex diseases. Genes that interact directly or indirectly may have the same or similar functions in the biological processes in which they are involved and together contribute to the related disease phenotypes. The complicated relations between genes can be clearly represented using network theory. A protein-protein interaction (PPI) network offers a platform from which to systematically identify disease-related genes from the relations between genes with similar functions. RESULTS: We constructed a weighted human PPI network (WHPN) using DNA methylation correlations based on human protein-protein interactions. WHPN represents the relationships of DNA methylation levels in gene pairs for four cancer types. A cancer-associated subnetwork (CASN) was obtained from WHPN by selecting genes associated with seed genes which were known to be methylated in the four cancers. We found that CASN had a more densely connected network community than WHPN, indicating that the genes in CASN were much closer to seed genes. We prioritized 154 potential cancer-related genes with aberrant methylation in CASN by neighborhood-weighting decision rule. A function enrichment analysis for GO and KEGG indicated that the optimized genes were mainly involved in the biological processes of regulating cell apoptosis and programmed cell death. An analysis of expression profiling data revealed that many of the optimized genes were expressed differentially in the four cancers. By examining the PubMed co-citations, we found 43 optimized genes were related with cancers and aberrant methylation, and 10 genes were validated to be methylated aberrantly in cancers. Of 154 optimized genes, 27 were as diagnostic markers and 20 as prognostic markers previously identified in literature for cancers and other complex diseases by searching PubMed manually. We found that 31 of the optimized genes were targeted as drug response markers in DrugBank. CONCLUSIONS: Here we have shown that network theory combined with epigenetic characteristics provides a favorable platform from which to identify cancer-related genes. We prioritized 154 potential cancer-related genes with aberrant methylation that might contribute to the further understanding of cancers.
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spelling pubmed-32242342011-11-30 Prioritizing cancer-related genes with aberrant methylation based on a weighted protein-protein interaction network Liu, Hui Su, Jianzhong Li, Junhua Liu, Hongbo Lv, Jie Li, Boyan Qiao, Hong Zhang, Yan BMC Syst Biol Research Article BACKGROUND: As an important epigenetic modification, DNA methylation plays a crucial role in the development of mammals and in the occurrence of complex diseases. Genes that interact directly or indirectly may have the same or similar functions in the biological processes in which they are involved and together contribute to the related disease phenotypes. The complicated relations between genes can be clearly represented using network theory. A protein-protein interaction (PPI) network offers a platform from which to systematically identify disease-related genes from the relations between genes with similar functions. RESULTS: We constructed a weighted human PPI network (WHPN) using DNA methylation correlations based on human protein-protein interactions. WHPN represents the relationships of DNA methylation levels in gene pairs for four cancer types. A cancer-associated subnetwork (CASN) was obtained from WHPN by selecting genes associated with seed genes which were known to be methylated in the four cancers. We found that CASN had a more densely connected network community than WHPN, indicating that the genes in CASN were much closer to seed genes. We prioritized 154 potential cancer-related genes with aberrant methylation in CASN by neighborhood-weighting decision rule. A function enrichment analysis for GO and KEGG indicated that the optimized genes were mainly involved in the biological processes of regulating cell apoptosis and programmed cell death. An analysis of expression profiling data revealed that many of the optimized genes were expressed differentially in the four cancers. By examining the PubMed co-citations, we found 43 optimized genes were related with cancers and aberrant methylation, and 10 genes were validated to be methylated aberrantly in cancers. Of 154 optimized genes, 27 were as diagnostic markers and 20 as prognostic markers previously identified in literature for cancers and other complex diseases by searching PubMed manually. We found that 31 of the optimized genes were targeted as drug response markers in DrugBank. CONCLUSIONS: Here we have shown that network theory combined with epigenetic characteristics provides a favorable platform from which to identify cancer-related genes. We prioritized 154 potential cancer-related genes with aberrant methylation that might contribute to the further understanding of cancers. BioMed Central 2011-10-11 /pmc/articles/PMC3224234/ /pubmed/21985575 http://dx.doi.org/10.1186/1752-0509-5-158 Text en Copyright ©2011 Liu et al; licensee BioMed Central Ltd. http://creativecommons.org/licenses/by/2.0 This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Article
Liu, Hui
Su, Jianzhong
Li, Junhua
Liu, Hongbo
Lv, Jie
Li, Boyan
Qiao, Hong
Zhang, Yan
Prioritizing cancer-related genes with aberrant methylation based on a weighted protein-protein interaction network
title Prioritizing cancer-related genes with aberrant methylation based on a weighted protein-protein interaction network
title_full Prioritizing cancer-related genes with aberrant methylation based on a weighted protein-protein interaction network
title_fullStr Prioritizing cancer-related genes with aberrant methylation based on a weighted protein-protein interaction network
title_full_unstemmed Prioritizing cancer-related genes with aberrant methylation based on a weighted protein-protein interaction network
title_short Prioritizing cancer-related genes with aberrant methylation based on a weighted protein-protein interaction network
title_sort prioritizing cancer-related genes with aberrant methylation based on a weighted protein-protein interaction network
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3224234/
https://www.ncbi.nlm.nih.gov/pubmed/21985575
http://dx.doi.org/10.1186/1752-0509-5-158
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