The transcriptional cofactor MCAF1/ATF7IP is involved in histone gene expression and cellular senescence.

The transcriptional cofactor MCAF1/ATF7IP is involved in histone gene expression and cellular senescence.

Cellular senescence is post-mitotic or oncogene-induced events combined with nuclear remodeling. MCAF1 (also known as hAM or ATF7IP), a transcriptional cofactor that is overexpressed in various cancers, functions in gene activation or repression, depending on interacting partners. In this study, we...

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Main Authors: Nobuhiro Sasai, Noriko Saitoh, Hisato Saitoh, Mitsuyoshi Nakao
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2013-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3728336?pdf=render
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spelling doaj-e10ddaf373b340f3b7e69f74412a0c872020-11-25T01:04:22ZengPublic Library of Science (PLoS)PLoS ONE1932-62032013-01-0187e6847810.1371/journal.pone.0068478The transcriptional cofactor MCAF1/ATF7IP is involved in histone gene expression and cellular senescence.Nobuhiro SasaiNoriko SaitohHisato SaitohMitsuyoshi NakaoCellular senescence is post-mitotic or oncogene-induced events combined with nuclear remodeling. MCAF1 (also known as hAM or ATF7IP), a transcriptional cofactor that is overexpressed in various cancers, functions in gene activation or repression, depending on interacting partners. In this study, we found that MCAF1 localizes to PML nuclear bodies in human fibroblasts and non-cancerous cells. Interestingly, depletion of MCAF1 in fibroblasts induced premature senescence that was characterized by cell cycle arrest, SA-β-gal activity, and senescence-associated heterochromatic foci (SAHF) formation. Under this condition, core histones and the linker histone H1 significantly decreased at both mRNA and protein levels, resulting in reduced nucleosome formation. Consistently, in activated Ras-induced senescent fibroblasts, the accumulation of MCAF1 in PML bodies was enhanced via the binding of this protein to SUMO molecules, suggesting that sequestration of MCAF1 to PML bodies promotes cellular senescence. Collectively, these results reveal that MCAF1 is an essential regulator of cellular senescence.http://europepmc.org/articles/PMC3728336?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Nobuhiro Sasai
Noriko Saitoh
Hisato Saitoh
Mitsuyoshi Nakao
spellingShingle Nobuhiro Sasai
Noriko Saitoh
Hisato Saitoh
Mitsuyoshi Nakao
The transcriptional cofactor MCAF1/ATF7IP is involved in histone gene expression and cellular senescence.
PLoS ONE
author_facet Nobuhiro Sasai
Noriko Saitoh
Hisato Saitoh
Mitsuyoshi Nakao
author_sort Nobuhiro Sasai
title The transcriptional cofactor MCAF1/ATF7IP is involved in histone gene expression and cellular senescence.
title_short The transcriptional cofactor MCAF1/ATF7IP is involved in histone gene expression and cellular senescence.
title_full The transcriptional cofactor MCAF1/ATF7IP is involved in histone gene expression and cellular senescence.
title_fullStr The transcriptional cofactor MCAF1/ATF7IP is involved in histone gene expression and cellular senescence.
title_full_unstemmed The transcriptional cofactor MCAF1/ATF7IP is involved in histone gene expression and cellular senescence.
title_sort transcriptional cofactor mcaf1/atf7ip is involved in histone gene expression and cellular senescence.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2013-01-01
description Cellular senescence is post-mitotic or oncogene-induced events combined with nuclear remodeling. MCAF1 (also known as hAM or ATF7IP), a transcriptional cofactor that is overexpressed in various cancers, functions in gene activation or repression, depending on interacting partners. In this study, we found that MCAF1 localizes to PML nuclear bodies in human fibroblasts and non-cancerous cells. Interestingly, depletion of MCAF1 in fibroblasts induced premature senescence that was characterized by cell cycle arrest, SA-β-gal activity, and senescence-associated heterochromatic foci (SAHF) formation. Under this condition, core histones and the linker histone H1 significantly decreased at both mRNA and protein levels, resulting in reduced nucleosome formation. Consistently, in activated Ras-induced senescent fibroblasts, the accumulation of MCAF1 in PML bodies was enhanced via the binding of this protein to SUMO molecules, suggesting that sequestration of MCAF1 to PML bodies promotes cellular senescence. Collectively, these results reveal that MCAF1 is an essential regulator of cellular senescence.
url http://europepmc.org/articles/PMC3728336?pdf=render
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