[HTML][HTML] Epigenetic regulation of cellular senescence
J Crouch, M Shvedova, RJRS Thanapaul… - Cells, 2022 - mdpi.com
Cells, 2022•mdpi.com
Senescence is a complex cellular stress response that abolishes proliferative capacity and
generates a unique secretory pattern that is implicated in organismal aging and age-related
disease. How a cell transitions to a senescent state is multifactorial and often requires
transcriptional regulation of multiple genes. Epigenetic alterations to DNA and chromatin are
powerful regulators of genome architecture and gene expression, and they play a crucial
role in mediating the induction and maintenance of senescence. This review will highlight …
generates a unique secretory pattern that is implicated in organismal aging and age-related
disease. How a cell transitions to a senescent state is multifactorial and often requires
transcriptional regulation of multiple genes. Epigenetic alterations to DNA and chromatin are
powerful regulators of genome architecture and gene expression, and they play a crucial
role in mediating the induction and maintenance of senescence. This review will highlight …
Senescence is a complex cellular stress response that abolishes proliferative capacity and generates a unique secretory pattern that is implicated in organismal aging and age-related disease. How a cell transitions to a senescent state is multifactorial and often requires transcriptional regulation of multiple genes. Epigenetic alterations to DNA and chromatin are powerful regulators of genome architecture and gene expression, and they play a crucial role in mediating the induction and maintenance of senescence. This review will highlight the changes in chromatin, DNA methylation, and histone alterations that establish and maintain cellular senescence, alongside the specific epigenetic regulation of the senescence-associated secretory phenotype (SASP).
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