Increased cell proliferation is associated with genomic instability: elevated micronuclei frequencies in estradiol-treated human ovarian cancer cells

doi:10.1093/mutage/18.3.243

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Mutagenesis, Vol. 18, No. 3, 243-247, May 2003
© 2003 UK Environmental Mutagen Society/Oxford University Press

Increased cell proliferation is associated with genomic instability: elevated micronuclei frequencies in estradiol-treated human ovarian cancer cells

Helga Stopper, Elmar Schmitt, Caroline Gregor, Stefan O. Mueller¹ and Wolfgang H. Fischer²

Department of Toxicology, University of Würzburg, Versbacher Strasse 9, D-97078 Würzburg and ² Institute of Toxicology, Merck KGaA, Darmstadt, Germany

Estrogen-related cancers are often associated with the hormone’stumor promoting activity. Recently, estradiol has also beendemonstrated to induce gene mutations in the physiological concentrationrange. Mitotic disturbances are found at higher concentrations.In the present study we demonstrate data suggesting an additionalmechanism for the induction of genetic damage, i.e. chromosomalbreakage. Estrogen receptor-positive (BG-1) and -negative (UCI)human ovarian cancer cell lines were investigated for micronucleusformation after treatment with estradiol. BG-1 cells but notUCI cells showed an increase in micronucleus formation whichcorrelated with the estradiol-induced cell proliferation. Thespecific estradiol receptor antagonist hydroxytamoxifen suppressedthe formation of micronuclei in BG-1 cells. Increased micronucleusfrequencies were also seen after normalization of the data tothe number of cell divisions. Kinetochore analysis revealeda difference between micronuclei induced by picomolar concentrationsof estradiol (kinetochore-negative) and micromolar concentrations(predominantly kinetochore-positive) leading to mitotic disturbances.In accordance with this finding, analysis of the cell cyclerevealed decreased cell numbers in G₂/M phase after treatmentwith picomolar concentrations, usually not found after mitoticdisturbances. We hypothesize that hormone-specific forcing ofresponsive cells through the cell cycle leads to an overrideof checkpoints operating under homeostatic control of the cellcycle, resulting in genomic instability.

² To whom correspondence should be addressed. Tel: +49 931 20148894; Fax: +49 931 201 48446; Email: fischer{at}toxi.uni-wuerzburg.de

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