Deregulated ERK1/2 MAP kinase signaling promotes aneuploidy by a Fbxw7β-Aurora A pathway

Aneuploidy is a common feature of human solid tumors and is often associated with poor prognosis. There is growing evidence that oncogenic signaling pathways, which are universally dysregulated in cancer, contribute to the promotion of aneuploidy. However, the mechanisms connecting signaling pathway...

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Hauptverfasser:	Duhamel, Stéphanie, Girondel, Charlotte, Dorn, Jonas F., Pierre-Luc Tanguay, Voisin, Laure, Smits, Ron, Maddox, Paul S., Meloche, Sylvain
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Schlagworte:	Biochemistry Cancer Cell Biology Computational Biology Developmental Biology FOS: Biological sciences FOS: Health sciences Genetics Infectious Diseases Medicine Molecular Biology
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creator	Duhamel, Stéphanie Girondel, Charlotte Dorn, Jonas F. Pierre-Luc Tanguay Voisin, Laure Smits, Ron Maddox, Paul S. Meloche, Sylvain
description	Aneuploidy is a common feature of human solid tumors and is often associated with poor prognosis. There is growing evidence that oncogenic signaling pathways, which are universally dysregulated in cancer, contribute to the promotion of aneuploidy. However, the mechanisms connecting signaling pathways to the execution of mitosis and cytokinesis are not well understood. Here, we show that hyperactivation of the ERK1/2 MAP kinase pathway in epithelial cells impairs cytokinesis, leading to polyploidization and aneuploidy. Mechanistically, deregulated ERK1/2 signaling specifically downregulates expression of the F-box protein Fbxw7β, a substrate-binding subunit of the SCFFbxw7 ubiquitin ligase, resulting in the accumulation of the mitotic kinase Aurora A. Reduction of Aurora A levels by RNA interference or pharmacological inhibition of MEK1/2 reverts the defect in cytokinesis and decreases the frequency of abnormal cell divisions induced by oncogenic H-RasV12. Reciprocally, overexpression of Aurora A or silencing of Fbxw7β phenocopies the effect of H-RasV12 on cell division. In vivo, conditional activation of MEK2 in the mouse intestine lowers Fbxw7β expression, resulting in the accumulation of cells with enlarged nuclei. We propose that the ERK1/2/ Fbxw7β/Aurora A axis identified in this study contributes to genomic instability and tumor progression.
doi_str_mv	10.6084/m9.figshare.3310786
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There is growing evidence that oncogenic signaling pathways, which are universally dysregulated in cancer, contribute to the promotion of aneuploidy. However, the mechanisms connecting signaling pathways to the execution of mitosis and cytokinesis are not well understood. Here, we show that hyperactivation of the ERK1/2 MAP kinase pathway in epithelial cells impairs cytokinesis, leading to polyploidization and aneuploidy. Mechanistically, deregulated ERK1/2 signaling specifically downregulates expression of the F-box protein Fbxw7β, a substrate-binding subunit of the SCFFbxw7 ubiquitin ligase, resulting in the accumulation of the mitotic kinase Aurora A. Reduction of Aurora A levels by RNA interference or pharmacological inhibition of MEK1/2 reverts the defect in cytokinesis and decreases the frequency of abnormal cell divisions induced by oncogenic H-RasV12. Reciprocally, overexpression of Aurora A or silencing of Fbxw7β phenocopies the effect of H-RasV12 on cell division. In vivo, conditional activation of MEK2 in the mouse intestine lowers Fbxw7β expression, resulting in the accumulation of cells with enlarged nuclei. 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In vivo, conditional activation of MEK2 in the mouse intestine lowers Fbxw7β expression, resulting in the accumulation of cells with enlarged nuclei. We propose that the ERK1/2/ Fbxw7β/Aurora A axis identified in this study contributes to genomic instability and tumor progression.</abstract><pub>Taylor & Francis</pub><doi>10.6084/m9.figshare.3310786</doi><oa>free_for_read</oa></addata></record>
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identifier	DOI: 10.6084/m9.figshare.3310786
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subjects	Biochemistry Cancer Cell Biology Computational Biology Developmental Biology FOS: Biological sciences FOS: Health sciences Genetics Infectious Diseases Medicine Molecular Biology
title	Deregulated ERK1/2 MAP kinase signaling promotes aneuploidy by a Fbxw7β-Aurora A pathway
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