Preferential killing of tetraploid tumor cells by targeting the mitotic kinesin Eg5

Tetraploid cells may constitute a metastable intermediate between normal euploidy and cancer-associated aneuploidy. Tetraploid cells are relatively more resistant against DNA damaging agents and are genetically unstable, due to their tendency towards multipolar, asymmetric division. Therefore, it is...

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Veröffentlicht in:	Cell cycle (Georgetown, Tex.) Tex.), 2009-04, Vol.8 (7), p.1030-1035
Hauptverfasser:	Rello-Varona, Santiago, Vitale, Ilio, Kepp, Oliver, Senovilla, Laura, Jemaá, Mohamed, Métivier, Didier, Castedo, Maria, Kroemer, Guido
Format:	Artikel
Sprache:	eng
Schlagworte:	Antineoplastic Agents - pharmacology Apoptosis Binding Biology Bioscience Calcium Cancer Cell Cell Line, Tumor Cycle Gene Knockdown Techniques Humans Kinesin - antagonists & inhibitors Kinesin - genetics Landes Mitosis - drug effects Neoplasms - genetics Neoplasms - metabolism Neoplasms - pathology Organogenesis Polyploidy Proteins Quinazolines - pharmacology RNA, Small Interfering - genetics Thiones - pharmacology
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container_end_page	1035
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container_title	Cell cycle (Georgetown, Tex.)
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creator	Rello-Varona, Santiago Vitale, Ilio Kepp, Oliver Senovilla, Laura Jemaá, Mohamed Métivier, Didier Castedo, Maria Kroemer, Guido
description	Tetraploid cells may constitute a metastable intermediate between normal euploidy and cancer-associated aneuploidy. Tetraploid cells are relatively more resistant against DNA damaging agents and are genetically unstable, due to their tendency towards multipolar, asymmetric division. Therefore, it is important to develop strategies for the selective removal of tetraploid cells. Here, we show that targeting the mitotic kinesin Eg5 (also known as kinesin spindle protein, KSP) by a small interfering RNA (siRNA) or by the pharmacological inhibitor dimethylenastron (DIMEN) kills tetraploid tumor cells more efficiently than their diploid precursors. Cell death occurs after an attempt of monoastral mitosis that, in diploid cells, is followed by a prolonged mitotic arrest and morphological reversion to the interphase, with a 4n DNA content. In contrast, DIMEN-treated tetraploid cells exhibit a shorter mitotic arrest, bipolar or tripolar karyokinesis, followed by apoptosis of the daughter cells, as assessed by fluorescence videomicroscopy of cells that express a histone 2B-GFP fusion construct allowing monitoring their chromosomes. Cell death occurred with hallmarks of apoptosis, namely loss of the mitochondrial transmembrane potential and terminal chromatin compaction. In conclusion, tetraploid cells are particular vulnerable to undergo mitotic catastrophe after genetic or pharmacological inhibition of Eg5.
doi_str_mv	10.4161/cc.8.7.7950
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Tetraploid cells are relatively more resistant against DNA damaging agents and are genetically unstable, due to their tendency towards multipolar, asymmetric division. Therefore, it is important to develop strategies for the selective removal of tetraploid cells. Here, we show that targeting the mitotic kinesin Eg5 (also known as kinesin spindle protein, KSP) by a small interfering RNA (siRNA) or by the pharmacological inhibitor dimethylenastron (DIMEN) kills tetraploid tumor cells more efficiently than their diploid precursors. Cell death occurs after an attempt of monoastral mitosis that, in diploid cells, is followed by a prolonged mitotic arrest and morphological reversion to the interphase, with a 4n DNA content. In contrast, DIMEN-treated tetraploid cells exhibit a shorter mitotic arrest, bipolar or tripolar karyokinesis, followed by apoptosis of the daughter cells, as assessed by fluorescence videomicroscopy of cells that express a histone 2B-GFP fusion construct allowing monitoring their chromosomes. Cell death occurred with hallmarks of apoptosis, namely loss of the mitochondrial transmembrane potential and terminal chromatin compaction. 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Tetraploid cells are relatively more resistant against DNA damaging agents and are genetically unstable, due to their tendency towards multipolar, asymmetric division. Therefore, it is important to develop strategies for the selective removal of tetraploid cells. Here, we show that targeting the mitotic kinesin Eg5 (also known as kinesin spindle protein, KSP) by a small interfering RNA (siRNA) or by the pharmacological inhibitor dimethylenastron (DIMEN) kills tetraploid tumor cells more efficiently than their diploid precursors. Cell death occurs after an attempt of monoastral mitosis that, in diploid cells, is followed by a prolonged mitotic arrest and morphological reversion to the interphase, with a 4n DNA content. 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subjects	Antineoplastic Agents - pharmacology Apoptosis Binding Biology Bioscience Calcium Cancer Cell Cell Line, Tumor Cycle Gene Knockdown Techniques Humans Kinesin - antagonists & inhibitors Kinesin - genetics Landes Mitosis - drug effects Neoplasms - genetics Neoplasms - metabolism Neoplasms - pathology Organogenesis Polyploidy Proteins Quinazolines - pharmacology RNA, Small Interfering - genetics Thiones - pharmacology
title	Preferential killing of tetraploid tumor cells by targeting the mitotic kinesin Eg5
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