KDM6A Loss Triggers an Epigenetic Switch That Disrupts Urothelial Differentiation and Drives Cell Proliferation in Bladder Cancer

KDM6A Loss Triggers an Epigenetic Switch That Disrupts Urothelial Differentiation and Drives Cell Proliferation in Bladder Cancer

Disruption of KDM6A, a histone lysine demethylase, is one of the most common somatic alternations in bladder cancer. Insights into how KDM6A mutations affect the epigenetic landscape to promote carcinogenesis could help reveal potential new treatment approaches. Here, we demonstrated that KDM6A loss...

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Veröffentlicht in:Cancer research (Chicago, Ill.) Ill.), 2023-03, Vol.83 (6), p.814-829
Hauptverfasser: Qiu, Hong, Makarov, Vladimir, Bolzenius, Jennifer K, Halstead, Angela, Parker, Yvonne, Wang, Allen, Iyer, Gopakumar V, Wise, Hannah, Kim, Daniel, Thayaparan, Varna, Lindner, Daniel J, Haber, Georges-Pascal, Ting, Angela H, Ren, Bing, Chan, Timothy A, Arora, Vivek, Solit, David B, Lee, Byron H
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Cell Differentiation - genetics
Cell Proliferation - genetics
Epigenesis, Genetic
Genome and Epigenome
Histone Demethylases - genetics
Histone Demethylases - metabolism
Humans
Urinary Bladder Neoplasms - pathology
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container_issue 6
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container_title Cancer research (Chicago, Ill.)
container_volume 83
creator Qiu, Hong
Makarov, Vladimir
Bolzenius, Jennifer K
Halstead, Angela
Parker, Yvonne
Wang, Allen
Iyer, Gopakumar V
Wise, Hannah
Kim, Daniel
Thayaparan, Varna
Lindner, Daniel J
Haber, Georges-Pascal
Ting, Angela H
Ren, Bing
Chan, Timothy A
Arora, Vivek
Solit, David B
Lee, Byron H
description Disruption of KDM6A, a histone lysine demethylase, is one of the most common somatic alternations in bladder cancer. Insights into how KDM6A mutations affect the epigenetic landscape to promote carcinogenesis could help reveal potential new treatment approaches. Here, we demonstrated that KDM6A loss triggers an epigenetic switch that disrupts urothelial differentiation and induces a neoplastic state characterized by increased cell proliferation. In bladder cancer cells with intact KDM6A, FOXA1 interacted with KDM6A to activate genes instructing urothelial differentiation. KDM6A-deficient cells displayed simultaneous loss of FOXA1 target binding and genome-wide redistribution of the bZIP transcription factor ATF3, which in turn repressed FOXA1-target genes and activated cell-cycle progression genes. Importantly, ATF3 depletion reversed the cell proliferation phenotype induced by KDM6A deficiency. These data establish that KDM6A loss engenders an epigenetic state that drives tumor growth in an ATF3-dependent manner, creating a potentially targetable molecular vulnerability. A gain-of-function epigenetic switch that disrupts differentiation is triggered by inactivating KDM6A mutations in bladder cancer and can serve as a potential target for novel therapies.
doi_str_mv 10.1158/0008-5472.CAN-22-1444
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subjects Cell Differentiation - genetics
Cell Proliferation - genetics
Epigenesis, Genetic
Genome and Epigenome
Histone Demethylases - genetics
Histone Demethylases - metabolism
Humans
Urinary Bladder Neoplasms - pathology
title KDM6A Loss Triggers an Epigenetic Switch That Disrupts Urothelial Differentiation and Drives Cell Proliferation in Bladder Cancer
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