@article{4781934460a14d00b995fb5f751dea7b,
title = "Histone Acetyltransferase p300 Induces De Novo Super-Enhancers to Drive Cellular Senescence",
abstract = "Accumulation of senescent cells during aging contributes to chronic inflammation and age-related diseases. While senescence is associated with profound alterations of the epigenome, a systematic view of epigenetic factors in regulating senescence is lacking. Here, we curated a library of short hairpin RNAs for targeted silencing of all known epigenetic proteins and performed a high-throughput screen to identify key candidates whose downregulation can delay replicative senescence of primary human cells. This screen identified multiple new players including the histone acetyltransferase p300 that was found to be a primary driver of the senescent phenotype. p300, but not the paralogous CBP, induces a dynamic hyper-acetylated chromatin state and promotes the formation of active enhancer elements in the non-coding genome, leading to a senescence-specific gene expression program. Our work illustrates a causal role of histone acetyltransferases and acetylation in senescence and suggests p300 as a potential therapeutic target for senescence and age-related diseases. Epigenetic dysregulation is a hallmark of senescence and aging. In this article, Sen et al. have identified the histone acetyltransferase p300 as a key protein regulating senescence from a high-throughput screen. p300 induces formation of new super enhancers that drive senescence-related gene expression. p300 is an attractive candidate for anti-aging therapy.",
keywords = "chromatin, enhancers, epigenetics, p300, senescence",
author = "Payel Sen and Yemin Lan and Li, {Catherine Y.} and Simone Sidoli and Greg Donahue and Zhixun Dou and Brian Frederick and Qijun Chen and Luense, {Lacey J.} and Garcia, {Benjamin A.} and Weiwei Dang and Johnson, {F. Bradley} and Adams, {Peter D.} and Schultz, {David C.} and Berger, {Shelley L.}",
note = "Funding Information: We thank Christopher Lord, Katherine Alexander, Digbijay Mahat, Ronen Marmorstein, and Daniel Bose for suggestions related to the screen, PRO-seq, and general information on p300 and CBP. We thank Gabor Egerv{\'a}ri for statistical analysis and Raffaella Nativio for discussions. This work was supported by NIH ( P01AG031862 to S.L.B., P.D.A., and F.B.J. and CA196539 , GM110174 , and AI118891 to B.A.G.), CPRIT ( R1306 to W.D.), Ted Nash Long Life Foundation (to W.D.), American Heart Association ( 15POST21230000 to P.S.), and AFAR Irene Diamond Transition Award ( DIAMOND 17113 to P.S.). Cell images in Graphical Abstract courtesy of Servier Medical Art, licensed under a Creative Commons Attribution 3.0 Unported License. Funding Information: We thank Christopher Lord, Katherine Alexander, Digbijay Mahat, Ronen Marmorstein, and Daniel Bose for suggestions related to the screen, PRO-seq, and general information on p300 and CBP. We thank Gabor Egerv{\'a}ri for statistical analysis and Raffaella Nativio for discussions. This work was supported by NIH (P01AG031862 to S.L.B., P.D.A., and F.B.J. and CA196539, GM110174, and AI118891 to B.A.G.), CPRIT (R1306 to W.D.), Ted Nash Long Life Foundation (to W.D.), American Heart Association (15POST21230000 to P.S.), and AFAR Irene Diamond Transition Award (DIAMOND 17113 to P.S.). Cell images in Graphical Abstract courtesy of Servier Medical Art, licensed under a Creative Commons Attribution 3.0 Unported License. Publisher Copyright: {\textcopyright} 2019 Elsevier Inc.",
year = "2019",
month = feb,
day = "21",
doi = "10.1016/j.molcel.2019.01.021",
language = "English (US)",
volume = "73",
pages = "684--698.e8",
journal = "Molecular Cell",
issn = "1097-2765",
publisher = "Cell Press",
number = "4",
}
