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Epigenetic modification of gene expression in cancer cells by terahertz demethylation

Hwayeong Cheon, Junho K. Hur, Woochang Hwang, Hee‐Jin Yang, Joo‐Hiuk Son

2023Scientific Reports29 citationsDOIOpen Access PDF

Abstract

) group is attached to cytosine, a nucleobase in human DNA. Appropriately controlled DNA methylation leads to proper regulation of gene expression. However, abnormal gene expression that departs from controlled genetic transcription through aberrant DNA methylation may occur in cancer or other diseases. In this study, we demonstrate the modification of gene expression in cells by THz demethylation using resonant THz radiation. Using an enzyme-linked immunosorbent assay, we observed changes in the degree of global DNA methylation in the SK-MEL-3 melanoma cell line under irradiation with 1.6-THz radiation with limited spectral bandwidth. Resonant THz radiation demethylated living melanoma cells by 19%, with no significant occurrence of apurinic/apyrimidinic sites, and the demethylation ratio was linearly proportional to the power of THz radiation. THz demethylation downregulates FOS, JUN, and CXCL8 genes, which are involved in cancer and apoptosis pathways. Our results show that THz demethylation has the potential to be a gene expression modifier with promising applications in cancer treatment.

Topics & Concepts

DNA methylationEpigeneticsDNA demethylationMethylationMolecular biologyCancer researchDemethylationBiologyTerahertz radiationCancer epigeneticsGene expressionDNAChemistryGeneGeneticsPhysicsOptoelectronicsGenomics and Chromatin DynamicsTerahertz technology and applicationsPlant Pathogens and Resistance