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Autori principali: Sangkyou Lee, Sung Yun Jung, Pawel Kuś, Jolanta Bondaruk, June Goo Lee, Roman Jaksik, Nagireddy Putluri, Khanh N Dinh, David Cogdell, Huiqin Chen, Yishan Wang, Jiansong Chen, Neema Navai, Colin Dinney, Cathy Mendelsohn, David McConkey, Richard R Behringer, Charles C Guo, Peng Wei, Marek Kimmel, Bogdan Czerniak
Natura: Artículo Open Access
Pubblicazione: Wiley 2025
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Accesso online:https://pathsocjournals.onlinelibrary.wiley.com/doi/10.1002/path.6474
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author Sangkyou Lee
Sung Yun Jung
Pawel Kuś
Jolanta Bondaruk
June Goo Lee
Roman Jaksik
Nagireddy Putluri
Khanh N Dinh
David Cogdell
Huiqin Chen
Yishan Wang
Jiansong Chen
Neema Navai
Colin Dinney
Cathy Mendelsohn
David McConkey
Richard R Behringer
Charles C Guo
Peng Wei
Marek Kimmel
Bogdan Czerniak
author_facet Sangkyou Lee
Sung Yun Jung
Pawel Kuś
Jolanta Bondaruk
June Goo Lee
Roman Jaksik
Nagireddy Putluri
Khanh N Dinh
David Cogdell
Huiqin Chen
Yishan Wang
Jiansong Chen
Neema Navai
Colin Dinney
Cathy Mendelsohn
David McConkey
Richard R Behringer
Charles C Guo
Peng Wei
Marek Kimmel
Bogdan Czerniak
Sangkyou Lee
Sung Yun Jung
Pawel Kuś
Jolanta Bondaruk
June Goo Lee
Roman Jaksik
Nagireddy Putluri
Khanh N Dinh
David Cogdell
Huiqin Chen
Yishan Wang
Jiansong Chen
Neema Navai
Colin Dinney
Cathy Mendelsohn
David McConkey
Richard R Behringer
Charles C Guo
Peng Wei
Marek Kimmel
Bogdan Czerniak
collection Wiley Open Access
contents Dysregulated mitochondrial energy metabolism drives the progression of mucosal field effects to invasive bladder cancer Sangkyou Lee Sung Yun Jung Pawel Kuś Jolanta Bondaruk June Goo Lee Roman Jaksik Nagireddy Putluri Khanh N Dinh David Cogdell Huiqin Chen Yishan Wang Jiansong Chen Neema Navai Colin Dinney Cathy Mendelsohn David McConkey Richard R Behringer Charles C Guo Peng Wei Marek Kimmel Bogdan Czerniak The Journal of Pathology AbstractMultiplatform mutational and gene expression profiling complemented with proteomic and metabolomic spatial mapping were used on the whole‐organ scale to identify the molecular profile of bladder cancer evolution from field effects. Analysis of the mutational landscape identified three types of mutations, referred to as α, β, and γ. Time modeling of the mutations revealed that carcinogenesis may span 30 years and can be divided into dormant and progressive phases. The α mutations developed in the dormant phase. The progressive phase lasted 5 years and was signified by expanding β mutations, but it was driven to invasive cancer by γ mutations. The mutational landscape emerged on a background of disorganized urothelial differentiation, activated epithelial‐mesenchymal transition, and enhanced immune infiltration with T‐cell exhaustion. Complex dysregulation of mitochondrial energy metabolism with downregulation of oxidative phosphorylation emerged as the leading mechanism driving the progression of mucosal field effects to invasive cancer. © 2025 The Author(s). The Journal of Pathology published by John Wiley & Sons Ltd on behalf of The Pathological Society of Great Britain and Ireland. 10.1002/path.6474 http://creativecommons.org/licenses/by/4.0/
doi_str_mv 10.1002/path.6474
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institution Wiley Open Access
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publisher Wiley
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spellingShingle Dysregulated mitochondrial energy metabolism drives the progression of mucosal field effects to invasive bladder cancer
Sangkyou Lee
Sung Yun Jung
Pawel Kuś
Jolanta Bondaruk
June Goo Lee
Roman Jaksik
Nagireddy Putluri
Khanh N Dinh
David Cogdell
Huiqin Chen
Yishan Wang
Jiansong Chen
Neema Navai
Colin Dinney
Cathy Mendelsohn
David McConkey
Richard R Behringer
Charles C Guo
Peng Wei
Marek Kimmel
Bogdan Czerniak
The Journal of Pathology
Dysregulated mitochondrial energy metabolism drives the progression of mucosal field effects to invasive bladder cancer Sangkyou Lee Sung Yun Jung Pawel Kuś Jolanta Bondaruk June Goo Lee Roman Jaksik Nagireddy Putluri Khanh N Dinh David Cogdell Huiqin Chen Yishan Wang Jiansong Chen Neema Navai Colin Dinney Cathy Mendelsohn David McConkey Richard R Behringer Charles C Guo Peng Wei Marek Kimmel Bogdan Czerniak The Journal of Pathology AbstractMultiplatform mutational and gene expression profiling complemented with proteomic and metabolomic spatial mapping were used on the whole‐organ scale to identify the molecular profile of bladder cancer evolution from field effects. Analysis of the mutational landscape identified three types of mutations, referred to as α, β, and γ. Time modeling of the mutations revealed that carcinogenesis may span 30 years and can be divided into dormant and progressive phases. The α mutations developed in the dormant phase. The progressive phase lasted 5 years and was signified by expanding β mutations, but it was driven to invasive cancer by γ mutations. The mutational landscape emerged on a background of disorganized urothelial differentiation, activated epithelial‐mesenchymal transition, and enhanced immune infiltration with T‐cell exhaustion. Complex dysregulation of mitochondrial energy metabolism with downregulation of oxidative phosphorylation emerged as the leading mechanism driving the progression of mucosal field effects to invasive cancer. © 2025 The Author(s). The Journal of Pathology published by John Wiley & Sons Ltd on behalf of The Pathological Society of Great Britain and Ireland. 10.1002/path.6474 http://creativecommons.org/licenses/by/4.0/
title Dysregulated mitochondrial energy metabolism drives the progression of mucosal field effects to invasive bladder cancer
topic The Journal of Pathology
url https://pathsocjournals.onlinelibrary.wiley.com/doi/10.1002/path.6474