Feedback between p21 and reactive oxygen production is necessary for cell senescence

Cellular senescence—the permanent arrest of cycling in normally proliferating cells such as fibroblasts—contributes both to age-related loss of mammalian tissue homeostasis and acts as a tumour suppressor mechanism. The pathways leading to establishment of senescence are proving to be more complex t...

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Autores principales: Passos, João F, Nelson, Glyn, Wang, Chunfang, Richter, Torsten, Simillion, Cedric, Proctor, Carole J, Miwa, Satomi, Olijslagers, Sharon, Hallinan, Jennifer, Wipat, Anil, Saretzki, Gabriele, Rudolph, Karl Lenhard, Kirkwood, Tom B L, von Zglinicki, Thomas
Formato: Texto
Lenguaje:English
Publicado: European Molecular Biology Organization 2010
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2835567/
https://www.ncbi.nlm.nih.gov/pubmed/20160708
http://dx.doi.org/10.1038/msb.2010.5
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author Passos, João F
Nelson, Glyn
Wang, Chunfang
Richter, Torsten
Simillion, Cedric
Proctor, Carole J
Miwa, Satomi
Olijslagers, Sharon
Hallinan, Jennifer
Wipat, Anil
Saretzki, Gabriele
Rudolph, Karl Lenhard
Kirkwood, Tom B L
von Zglinicki, Thomas
author_facet Passos, João F
Nelson, Glyn
Wang, Chunfang
Richter, Torsten
Simillion, Cedric
Proctor, Carole J
Miwa, Satomi
Olijslagers, Sharon
Hallinan, Jennifer
Wipat, Anil
Saretzki, Gabriele
Rudolph, Karl Lenhard
Kirkwood, Tom B L
von Zglinicki, Thomas
author_sort Passos, João F
collection PubMed
description Cellular senescence—the permanent arrest of cycling in normally proliferating cells such as fibroblasts—contributes both to age-related loss of mammalian tissue homeostasis and acts as a tumour suppressor mechanism. The pathways leading to establishment of senescence are proving to be more complex than was previously envisaged. Combining in-silico interactome analysis and functional target gene inhibition, stochastic modelling and live cell microscopy, we show here that there exists a dynamic feedback loop that is triggered by a DNA damage response (DDR) and, which after a delay of several days, locks the cell into an actively maintained state of ‘deep’ cellular senescence. The essential feature of the loop is that long-term activation of the checkpoint gene CDKN1A (p21) induces mitochondrial dysfunction and production of reactive oxygen species (ROS) through serial signalling through GADD45-MAPK14(p38MAPK)-GRB2-TGFBR2-TGFβ. These ROS in turn replenish short-lived DNA damage foci and maintain an ongoing DDR. We show that this loop is both necessary and sufficient for the stability of growth arrest during the establishment of the senescent phenotype.
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spelling pubmed-28355672010-03-11 Feedback between p21 and reactive oxygen production is necessary for cell senescence Passos, João F Nelson, Glyn Wang, Chunfang Richter, Torsten Simillion, Cedric Proctor, Carole J Miwa, Satomi Olijslagers, Sharon Hallinan, Jennifer Wipat, Anil Saretzki, Gabriele Rudolph, Karl Lenhard Kirkwood, Tom B L von Zglinicki, Thomas Mol Syst Biol Article Cellular senescence—the permanent arrest of cycling in normally proliferating cells such as fibroblasts—contributes both to age-related loss of mammalian tissue homeostasis and acts as a tumour suppressor mechanism. The pathways leading to establishment of senescence are proving to be more complex than was previously envisaged. Combining in-silico interactome analysis and functional target gene inhibition, stochastic modelling and live cell microscopy, we show here that there exists a dynamic feedback loop that is triggered by a DNA damage response (DDR) and, which after a delay of several days, locks the cell into an actively maintained state of ‘deep’ cellular senescence. The essential feature of the loop is that long-term activation of the checkpoint gene CDKN1A (p21) induces mitochondrial dysfunction and production of reactive oxygen species (ROS) through serial signalling through GADD45-MAPK14(p38MAPK)-GRB2-TGFBR2-TGFβ. These ROS in turn replenish short-lived DNA damage foci and maintain an ongoing DDR. We show that this loop is both necessary and sufficient for the stability of growth arrest during the establishment of the senescent phenotype. European Molecular Biology Organization 2010-02-16 /pmc/articles/PMC2835567/ /pubmed/20160708 http://dx.doi.org/10.1038/msb.2010.5 Text en Copyright © 2010, EMBO and Macmillan Publishers Limited https://creativecommons.org/licenses/by-nc-nd/3.0/This is an open-access article distributed under the terms of the Creative Commons Attribution Licence, which permits distribution and reproduction in any medium, provided the original author and source are credited. This licence does not permit commercial exploitation or the creation of derivative works without specific permission.
spellingShingle Article
Passos, João F
Nelson, Glyn
Wang, Chunfang
Richter, Torsten
Simillion, Cedric
Proctor, Carole J
Miwa, Satomi
Olijslagers, Sharon
Hallinan, Jennifer
Wipat, Anil
Saretzki, Gabriele
Rudolph, Karl Lenhard
Kirkwood, Tom B L
von Zglinicki, Thomas
Feedback between p21 and reactive oxygen production is necessary for cell senescence
title Feedback between p21 and reactive oxygen production is necessary for cell senescence
title_full Feedback between p21 and reactive oxygen production is necessary for cell senescence
title_fullStr Feedback between p21 and reactive oxygen production is necessary for cell senescence
title_full_unstemmed Feedback between p21 and reactive oxygen production is necessary for cell senescence
title_short Feedback between p21 and reactive oxygen production is necessary for cell senescence
title_sort feedback between p21 and reactive oxygen production is necessary for cell senescence
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2835567/
https://www.ncbi.nlm.nih.gov/pubmed/20160708
http://dx.doi.org/10.1038/msb.2010.5
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