Real-time in vivo imaging of p16(Ink4a) reveals cross talk with p53

Expression of the p16(Ink4a) tumor suppressor gene, a sensor of oncogenic stress, is up-regulated by a variety of potentially oncogenic stimuli in cultured primary cells. However, because p16(Ink4a) expression is also induced by tissue culture stress, physiological mechanisms regulating p16(Ink4a) e...

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Autores principales: Yamakoshi, Kimi, Takahashi, Akiko, Hirota, Fumiko, Nakayama, Rika, Ishimaru, Naozumi, Kubo, Yoshiaki, Mann, David J., Ohmura, Masako, Hirao, Atsushi, Saya, Hideyuki, Arase, Seiji, Hayashi, Yoshio, Nakao, Kazuki, Matsumoto, Mitsuru, Ohtani, Naoko, Hara, Eiji
Formato: Texto
Lenguaje:English
Publicado: The Rockefeller University Press 2009
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2728398/
https://www.ncbi.nlm.nih.gov/pubmed/19667129
http://dx.doi.org/10.1083/jcb.200904105
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author Yamakoshi, Kimi
Takahashi, Akiko
Hirota, Fumiko
Nakayama, Rika
Ishimaru, Naozumi
Kubo, Yoshiaki
Mann, David J.
Ohmura, Masako
Hirao, Atsushi
Saya, Hideyuki
Arase, Seiji
Hayashi, Yoshio
Nakao, Kazuki
Matsumoto, Mitsuru
Ohtani, Naoko
Hara, Eiji
author_facet Yamakoshi, Kimi
Takahashi, Akiko
Hirota, Fumiko
Nakayama, Rika
Ishimaru, Naozumi
Kubo, Yoshiaki
Mann, David J.
Ohmura, Masako
Hirao, Atsushi
Saya, Hideyuki
Arase, Seiji
Hayashi, Yoshio
Nakao, Kazuki
Matsumoto, Mitsuru
Ohtani, Naoko
Hara, Eiji
author_sort Yamakoshi, Kimi
collection PubMed
description Expression of the p16(Ink4a) tumor suppressor gene, a sensor of oncogenic stress, is up-regulated by a variety of potentially oncogenic stimuli in cultured primary cells. However, because p16(Ink4a) expression is also induced by tissue culture stress, physiological mechanisms regulating p16(Ink4a) expression remain unclear. To eliminate any potential problems arising from tissue culture–imposed stress, we used bioluminescence imaging for noninvasive and real-time analysis of p16(Ink4a) expression under various physiological conditions in living mice. In this study, we show that oncogenic insults such as ras activation provoke epigenetic derepression of p16(Ink4a) expression through reduction of DNMT1 (DNA methyl transferase 1) levels as a DNA damage response in vivo. This pathway is accelerated in the absence of p53, indicating that p53 normally holds the p16(Ink4a) response in check. These results unveil a backup tumor suppressor role for p16(Ink4a) in the event of p53 inactivation, expanding our understanding of how p16(Ink4a) expression is regulated in vivo.
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spelling pubmed-27283982010-02-10 Real-time in vivo imaging of p16(Ink4a) reveals cross talk with p53 Yamakoshi, Kimi Takahashi, Akiko Hirota, Fumiko Nakayama, Rika Ishimaru, Naozumi Kubo, Yoshiaki Mann, David J. Ohmura, Masako Hirao, Atsushi Saya, Hideyuki Arase, Seiji Hayashi, Yoshio Nakao, Kazuki Matsumoto, Mitsuru Ohtani, Naoko Hara, Eiji J Cell Biol Research Articles Expression of the p16(Ink4a) tumor suppressor gene, a sensor of oncogenic stress, is up-regulated by a variety of potentially oncogenic stimuli in cultured primary cells. However, because p16(Ink4a) expression is also induced by tissue culture stress, physiological mechanisms regulating p16(Ink4a) expression remain unclear. To eliminate any potential problems arising from tissue culture–imposed stress, we used bioluminescence imaging for noninvasive and real-time analysis of p16(Ink4a) expression under various physiological conditions in living mice. In this study, we show that oncogenic insults such as ras activation provoke epigenetic derepression of p16(Ink4a) expression through reduction of DNMT1 (DNA methyl transferase 1) levels as a DNA damage response in vivo. This pathway is accelerated in the absence of p53, indicating that p53 normally holds the p16(Ink4a) response in check. These results unveil a backup tumor suppressor role for p16(Ink4a) in the event of p53 inactivation, expanding our understanding of how p16(Ink4a) expression is regulated in vivo. The Rockefeller University Press 2009-08-10 /pmc/articles/PMC2728398/ /pubmed/19667129 http://dx.doi.org/10.1083/jcb.200904105 Text en © 2009 Yamakoshi et al. This article is distributed under the terms of an Attribution–Noncommercial–Share Alike–No Mirror Sites license for the first six months after the publication date (see http://www.jcb.org/misc/terms.shtml). After six months it is available under a Creative Commons License (Attribution–Noncommercial–Share Alike 3.0 Unported license, as described at http://creativecommons.org/licenses/by-nc-sa/3.0/).
spellingShingle Research Articles
Yamakoshi, Kimi
Takahashi, Akiko
Hirota, Fumiko
Nakayama, Rika
Ishimaru, Naozumi
Kubo, Yoshiaki
Mann, David J.
Ohmura, Masako
Hirao, Atsushi
Saya, Hideyuki
Arase, Seiji
Hayashi, Yoshio
Nakao, Kazuki
Matsumoto, Mitsuru
Ohtani, Naoko
Hara, Eiji
Real-time in vivo imaging of p16(Ink4a) reveals cross talk with p53
title Real-time in vivo imaging of p16(Ink4a) reveals cross talk with p53
title_full Real-time in vivo imaging of p16(Ink4a) reveals cross talk with p53
title_fullStr Real-time in vivo imaging of p16(Ink4a) reveals cross talk with p53
title_full_unstemmed Real-time in vivo imaging of p16(Ink4a) reveals cross talk with p53
title_short Real-time in vivo imaging of p16(Ink4a) reveals cross talk with p53
title_sort real-time in vivo imaging of p16(ink4a) reveals cross talk with p53
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2728398/
https://www.ncbi.nlm.nih.gov/pubmed/19667129
http://dx.doi.org/10.1083/jcb.200904105
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