Role of DNA Methylation in the Resistance to Therapy in Solid Tumors
Despite the recent advances in chemotherapeutic treatments against cancer, some types of highly aggressive and invasive cancer develop drug resistance against conventional therapies, which continues to be a major problem in the fight against cancer. In recent years, studies of alterations of DNA met...
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2020-08-01
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doaj-19044206b422400f90911c5f33350cda2020-11-25T03:45:11ZengFrontiers Media S.A.Frontiers in Oncology2234-943X2020-08-011010.3389/fonc.2020.01152542993Role of DNA Methylation in the Resistance to Therapy in Solid TumorsSusana Romero-GarciaHeriberto Prado-GarciaAngeles Carlos-ReyesDespite the recent advances in chemotherapeutic treatments against cancer, some types of highly aggressive and invasive cancer develop drug resistance against conventional therapies, which continues to be a major problem in the fight against cancer. In recent years, studies of alterations of DNA methylome have given us a better understanding of the role of DNA methylation in the development of tumors. DNA methylation (DNAm) is an epigenetic change that promotes the covalent transfer of methyl groups to DNA. This process suppresses gene expression through the modulation of the transcription machinery access to the chromatin or through the recruitment of methyl binding proteins. DNAm is regulated mainly by DNA methyltransferases. Aberrant DNAm contributes to tumor progression, metastasis, and resistance to current anti-tumoral therapies. Aberrant DNAm may occur through hypermethylation in the promoter regions of tumor suppressor genes, which leads to their silencing, while hypomethylation in the promoter regions of oncogenes can activate them. In this review, we discuss the impact of dysregulated methylation in certain genes, which impact signaling pathways associated with apoptosis avoidance, metastasis, and resistance to therapy. The analysis of methylome has revealed patterns of global methylation, which regulate important signaling pathways involved in therapy resistance in different cancer types, such as breast, colon, and lung cancer, among other solid tumors. This analysis has provided gene-expression signatures of methylated region-specific DNA that can be used to predict the treatment outcome in response to anti-cancer therapy. Additionally, changes in cancer methylome have been associated with the acquisition of drug resistance. We also review treatments with demethylating agents that, in combination with standard therapies, seem to be encouraging, as tumors that are in early stages can be successfully treated. On the other hand, tumors that are in advanced stages can be treated with these combination schemes, which could sensitize tumor cells that are resistant to the therapy. We propose that rational strategies, which combine specific demethylating agents with conventional treatment, may improve overall survival in cancer patients.https://www.frontiersin.org/article/10.3389/fonc.2020.01152/fullDNA methylationtumor suppressor genesoncogenesDNMTstherapeutic targetsbiomarkers |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Susana Romero-Garcia Heriberto Prado-Garcia Angeles Carlos-Reyes |
spellingShingle |
Susana Romero-Garcia Heriberto Prado-Garcia Angeles Carlos-Reyes Role of DNA Methylation in the Resistance to Therapy in Solid Tumors Frontiers in Oncology DNA methylation tumor suppressor genes oncogenes DNMTs therapeutic targets biomarkers |
author_facet |
Susana Romero-Garcia Heriberto Prado-Garcia Angeles Carlos-Reyes |
author_sort |
Susana Romero-Garcia |
title |
Role of DNA Methylation in the Resistance to Therapy in Solid Tumors |
title_short |
Role of DNA Methylation in the Resistance to Therapy in Solid Tumors |
title_full |
Role of DNA Methylation in the Resistance to Therapy in Solid Tumors |
title_fullStr |
Role of DNA Methylation in the Resistance to Therapy in Solid Tumors |
title_full_unstemmed |
Role of DNA Methylation in the Resistance to Therapy in Solid Tumors |
title_sort |
role of dna methylation in the resistance to therapy in solid tumors |
publisher |
Frontiers Media S.A. |
series |
Frontiers in Oncology |
issn |
2234-943X |
publishDate |
2020-08-01 |
description |
Despite the recent advances in chemotherapeutic treatments against cancer, some types of highly aggressive and invasive cancer develop drug resistance against conventional therapies, which continues to be a major problem in the fight against cancer. In recent years, studies of alterations of DNA methylome have given us a better understanding of the role of DNA methylation in the development of tumors. DNA methylation (DNAm) is an epigenetic change that promotes the covalent transfer of methyl groups to DNA. This process suppresses gene expression through the modulation of the transcription machinery access to the chromatin or through the recruitment of methyl binding proteins. DNAm is regulated mainly by DNA methyltransferases. Aberrant DNAm contributes to tumor progression, metastasis, and resistance to current anti-tumoral therapies. Aberrant DNAm may occur through hypermethylation in the promoter regions of tumor suppressor genes, which leads to their silencing, while hypomethylation in the promoter regions of oncogenes can activate them. In this review, we discuss the impact of dysregulated methylation in certain genes, which impact signaling pathways associated with apoptosis avoidance, metastasis, and resistance to therapy. The analysis of methylome has revealed patterns of global methylation, which regulate important signaling pathways involved in therapy resistance in different cancer types, such as breast, colon, and lung cancer, among other solid tumors. This analysis has provided gene-expression signatures of methylated region-specific DNA that can be used to predict the treatment outcome in response to anti-cancer therapy. Additionally, changes in cancer methylome have been associated with the acquisition of drug resistance. We also review treatments with demethylating agents that, in combination with standard therapies, seem to be encouraging, as tumors that are in early stages can be successfully treated. On the other hand, tumors that are in advanced stages can be treated with these combination schemes, which could sensitize tumor cells that are resistant to the therapy. We propose that rational strategies, which combine specific demethylating agents with conventional treatment, may improve overall survival in cancer patients. |
topic |
DNA methylation tumor suppressor genes oncogenes DNMTs therapeutic targets biomarkers |
url |
https://www.frontiersin.org/article/10.3389/fonc.2020.01152/full |
work_keys_str_mv |
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