The Transcriptional Landscape of p53 Signalling Pathway

Although recent cancer genomics studies have identified a large number of genes that were mutated in human cancers, p53 remains as the most frequently mutated gene. To further elucidate the p53-signalling network, we performed transcriptome analysis on 24 tissues in p53(+/+) or p53(−/−) mice after w...

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Autores principales: Tanikawa, Chizu, Zhang, Yao-zhong, Yamamoto, Ryuta, Tsuda, Yusuke, Tanaka, Masami, Funauchi, Yuki, Mori, Jinichi, Imoto, Seiya, Yamaguchi, Rui, Nakamura, Yusuke, Miyano, Satoru, Nakagawa, Hidewaki, Matsuda, Koichi
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2017
Materias:
Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5478243/
https://www.ncbi.nlm.nih.gov/pubmed/28558959
http://dx.doi.org/10.1016/j.ebiom.2017.05.017
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author Tanikawa, Chizu
Zhang, Yao-zhong
Yamamoto, Ryuta
Tsuda, Yusuke
Tanaka, Masami
Funauchi, Yuki
Mori, Jinichi
Imoto, Seiya
Yamaguchi, Rui
Nakamura, Yusuke
Miyano, Satoru
Nakagawa, Hidewaki
Matsuda, Koichi
author_facet Tanikawa, Chizu
Zhang, Yao-zhong
Yamamoto, Ryuta
Tsuda, Yusuke
Tanaka, Masami
Funauchi, Yuki
Mori, Jinichi
Imoto, Seiya
Yamaguchi, Rui
Nakamura, Yusuke
Miyano, Satoru
Nakagawa, Hidewaki
Matsuda, Koichi
author_sort Tanikawa, Chizu
collection PubMed
description Although recent cancer genomics studies have identified a large number of genes that were mutated in human cancers, p53 remains as the most frequently mutated gene. To further elucidate the p53-signalling network, we performed transcriptome analysis on 24 tissues in p53(+/+) or p53(−/−) mice after whole-body X-ray irradiation. Here we found transactivation of a total of 3551 genes in one or more of the 24 tissues only in p53(+/+) mice, while 2576 genes were downregulated. p53 mRNA expression level in each tissue was significantly associated with the number of genes upregulated by irradiation. Annotation using TCGA (The Cancer Genome Atlas) database revealed that p53 negatively regulated mRNA expression of several cancer therapeutic targets or pathways such as BTK, SYK, and CTLA4 in breast cancer tissues. In addition, stomach exhibited the induction of Krt6, Krt16, and Krt17 as well as loricrin, an epidermal differentiation marker, after the X-ray irradiation only in p53(+/+) mice, implying a mechanism to protect damaged tissues by rapid induction of differentiation. Our comprehensive transcriptome analysis elucidated tissue specific roles of p53 and its signalling networks in DNA-damage response that will enhance our understanding of cancer biology.
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spelling pubmed-54782432017-06-26 The Transcriptional Landscape of p53 Signalling Pathway Tanikawa, Chizu Zhang, Yao-zhong Yamamoto, Ryuta Tsuda, Yusuke Tanaka, Masami Funauchi, Yuki Mori, Jinichi Imoto, Seiya Yamaguchi, Rui Nakamura, Yusuke Miyano, Satoru Nakagawa, Hidewaki Matsuda, Koichi EBioMedicine Research Paper Although recent cancer genomics studies have identified a large number of genes that were mutated in human cancers, p53 remains as the most frequently mutated gene. To further elucidate the p53-signalling network, we performed transcriptome analysis on 24 tissues in p53(+/+) or p53(−/−) mice after whole-body X-ray irradiation. Here we found transactivation of a total of 3551 genes in one or more of the 24 tissues only in p53(+/+) mice, while 2576 genes were downregulated. p53 mRNA expression level in each tissue was significantly associated with the number of genes upregulated by irradiation. Annotation using TCGA (The Cancer Genome Atlas) database revealed that p53 negatively regulated mRNA expression of several cancer therapeutic targets or pathways such as BTK, SYK, and CTLA4 in breast cancer tissues. In addition, stomach exhibited the induction of Krt6, Krt16, and Krt17 as well as loricrin, an epidermal differentiation marker, after the X-ray irradiation only in p53(+/+) mice, implying a mechanism to protect damaged tissues by rapid induction of differentiation. Our comprehensive transcriptome analysis elucidated tissue specific roles of p53 and its signalling networks in DNA-damage response that will enhance our understanding of cancer biology. Elsevier 2017-05-18 /pmc/articles/PMC5478243/ /pubmed/28558959 http://dx.doi.org/10.1016/j.ebiom.2017.05.017 Text en © 2017 The Authors http://creativecommons.org/licenses/by-nc-nd/4.0/ This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Research Paper
Tanikawa, Chizu
Zhang, Yao-zhong
Yamamoto, Ryuta
Tsuda, Yusuke
Tanaka, Masami
Funauchi, Yuki
Mori, Jinichi
Imoto, Seiya
Yamaguchi, Rui
Nakamura, Yusuke
Miyano, Satoru
Nakagawa, Hidewaki
Matsuda, Koichi
The Transcriptional Landscape of p53 Signalling Pathway
title The Transcriptional Landscape of p53 Signalling Pathway
title_full The Transcriptional Landscape of p53 Signalling Pathway
title_fullStr The Transcriptional Landscape of p53 Signalling Pathway
title_full_unstemmed The Transcriptional Landscape of p53 Signalling Pathway
title_short The Transcriptional Landscape of p53 Signalling Pathway
title_sort transcriptional landscape of p53 signalling pathway
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5478243/
https://www.ncbi.nlm.nih.gov/pubmed/28558959
http://dx.doi.org/10.1016/j.ebiom.2017.05.017
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