p53 Status in Multiple Human Urothelial Cancers: Assessment for Clonality by the Yeast p53 Functional Assay in Combination with p53 Immunohistochemistry

Multifocal synchronous or metachronous tumor development is a common observation in human urothelial cancer cases. However, the underlying mechanism has remained obscure. We have employed a new tool to investigate the p53 gene status, the yeast p53 functional assay, in combination with immunohistoch...

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Autores principales: Yamamoto, Shinji, Tada, Mitsuhiro, Lee, Chyi Chia R., Masuda, Chikayoshi, Wanibuchi, Hideki, Yoshimura, Rikio, Wada, Seiji, Yamamoto, Keisuke, Kishimoto, Taketoshi, Fukushima, Shoji
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Blackwell Publishing Ltd 2000
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5926329/
https://www.ncbi.nlm.nih.gov/pubmed/10761705
http://dx.doi.org/10.1111/j.1349-7006.2000.tb00930.x
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author Yamamoto, Shinji
Tada, Mitsuhiro
Lee, Chyi Chia R.
Masuda, Chikayoshi
Wanibuchi, Hideki
Yoshimura, Rikio
Wada, Seiji
Yamamoto, Keisuke
Kishimoto, Taketoshi
Fukushima, Shoji
author_facet Yamamoto, Shinji
Tada, Mitsuhiro
Lee, Chyi Chia R.
Masuda, Chikayoshi
Wanibuchi, Hideki
Yoshimura, Rikio
Wada, Seiji
Yamamoto, Keisuke
Kishimoto, Taketoshi
Fukushima, Shoji
author_sort Yamamoto, Shinji
collection PubMed
description Multifocal synchronous or metachronous tumor development is a common observation in human urothelial cancer cases. However, the underlying mechanism has remained obscure. We have employed a new tool to investigate the p53 gene status, the yeast p53 functional assay, in combination with immunohistochemistry in a total of 50 tumor samples from 32 cases with urothelial cancers, including 8 with multiple synchronous tumor development and 2 demonstrating metachronous tumors. p53 mutations were found in 13 cases (9 with missense mutations, 3 with deletion, 1 with splicing mutation) by the yeast p53 functional assay. p53 protein overexpression was seen in all 9 cases with missense mutations, but in only one of the 4 cases with nonsense mutations. Two tumors without p53 mutation also showed positive p53 immunoreactivity. Overall, p53 abnormalities including mutations and/or protein overexpression were found in 15 (47%) cases. p53 abnormalities were significantly more frequent in non‐papillary and in high grade tumors. Loss of the wild type allele in addition to a p53 mutation was suggested in 8 of the 15 (53%) cases. All 4 cases with mutations in multiple synchronous tumors had identical p53 mutations in the separate urothelial cancers, strongly suggestive of monoclonality. The one case with multiple metachronous tumors, in contrast, was characterized by variation in the p53 status, indicative of different clonal origins. In conclusion, combined assessment for p53 status as used here (yeast p53 functional assay plus immunohistochemistry) may provide insights into the molecular mechanisms of urothelial carcinogenesis.
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spelling pubmed-59263292018-05-11 p53 Status in Multiple Human Urothelial Cancers: Assessment for Clonality by the Yeast p53 Functional Assay in Combination with p53 Immunohistochemistry Yamamoto, Shinji Tada, Mitsuhiro Lee, Chyi Chia R. Masuda, Chikayoshi Wanibuchi, Hideki Yoshimura, Rikio Wada, Seiji Yamamoto, Keisuke Kishimoto, Taketoshi Fukushima, Shoji Jpn J Cancer Res Article Multifocal synchronous or metachronous tumor development is a common observation in human urothelial cancer cases. However, the underlying mechanism has remained obscure. We have employed a new tool to investigate the p53 gene status, the yeast p53 functional assay, in combination with immunohistochemistry in a total of 50 tumor samples from 32 cases with urothelial cancers, including 8 with multiple synchronous tumor development and 2 demonstrating metachronous tumors. p53 mutations were found in 13 cases (9 with missense mutations, 3 with deletion, 1 with splicing mutation) by the yeast p53 functional assay. p53 protein overexpression was seen in all 9 cases with missense mutations, but in only one of the 4 cases with nonsense mutations. Two tumors without p53 mutation also showed positive p53 immunoreactivity. Overall, p53 abnormalities including mutations and/or protein overexpression were found in 15 (47%) cases. p53 abnormalities were significantly more frequent in non‐papillary and in high grade tumors. Loss of the wild type allele in addition to a p53 mutation was suggested in 8 of the 15 (53%) cases. All 4 cases with mutations in multiple synchronous tumors had identical p53 mutations in the separate urothelial cancers, strongly suggestive of monoclonality. The one case with multiple metachronous tumors, in contrast, was characterized by variation in the p53 status, indicative of different clonal origins. In conclusion, combined assessment for p53 status as used here (yeast p53 functional assay plus immunohistochemistry) may provide insights into the molecular mechanisms of urothelial carcinogenesis. Blackwell Publishing Ltd 2000-02 /pmc/articles/PMC5926329/ /pubmed/10761705 http://dx.doi.org/10.1111/j.1349-7006.2000.tb00930.x Text en
spellingShingle Article
Yamamoto, Shinji
Tada, Mitsuhiro
Lee, Chyi Chia R.
Masuda, Chikayoshi
Wanibuchi, Hideki
Yoshimura, Rikio
Wada, Seiji
Yamamoto, Keisuke
Kishimoto, Taketoshi
Fukushima, Shoji
p53 Status in Multiple Human Urothelial Cancers: Assessment for Clonality by the Yeast p53 Functional Assay in Combination with p53 Immunohistochemistry
title p53 Status in Multiple Human Urothelial Cancers: Assessment for Clonality by the Yeast p53 Functional Assay in Combination with p53 Immunohistochemistry
title_full p53 Status in Multiple Human Urothelial Cancers: Assessment for Clonality by the Yeast p53 Functional Assay in Combination with p53 Immunohistochemistry
title_fullStr p53 Status in Multiple Human Urothelial Cancers: Assessment for Clonality by the Yeast p53 Functional Assay in Combination with p53 Immunohistochemistry
title_full_unstemmed p53 Status in Multiple Human Urothelial Cancers: Assessment for Clonality by the Yeast p53 Functional Assay in Combination with p53 Immunohistochemistry
title_short p53 Status in Multiple Human Urothelial Cancers: Assessment for Clonality by the Yeast p53 Functional Assay in Combination with p53 Immunohistochemistry
title_sort p53 status in multiple human urothelial cancers: assessment for clonality by the yeast p53 functional assay in combination with p53 immunohistochemistry
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5926329/
https://www.ncbi.nlm.nih.gov/pubmed/10761705
http://dx.doi.org/10.1111/j.1349-7006.2000.tb00930.x
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