期刊
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
卷 22, 期 16, 页码 -出版社
MDPI
DOI: 10.3390/ijms22168778
关键词
cortisol; DNA methylation; environmental stress; epigenetics; fibroblasts; glucocorticoids
When cells are exposed to prolonged natural stress hormone levels, profound and widespread epigenetic changes may occur, primarily at selected CpG sites and potentially spreading to nearby sites. The findings help understand how prolonged stress could impact the epigenome, with important implications for stress-related phenotypes.
Environmental stress is ubiquitous in modern societies and can exert a profound and cumulative impact on cell function and health phenotypes. This impact is thought to be in large part mediated by the action of glucocorticoid stress hormones, primarily cortisol in humans. While the underlying molecular mechanisms are unclear, epigenetics-the chemical changes that regulate genomic function without altering the genetic code-has emerged as a key link between environmental exposures and phenotypic outcomes. The present study assessed genome-wide DNA (CpG) methylation, one of the key epigenetic mechanisms, at three timepoints during prolonged (51-day) exposure of cultured human fibroblasts to naturalistic cortisol levels, which can be reached in human tissues during in vivo stress. The findings support a spatiotemporal model of profound and widespread stress hormone-driven methylomic changes that emerge at selected CpG sites, are more likely to spread to nearby located CpGs, and quantitatively accrue at open sea, glucocorticoid receptor binding, and chromatin-accessible sites. Taken together, these findings provide novel insights into how prolonged stress may impact the epigenome, with potentially important implications for stress-related phenotypes.
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