Susanne C.J.P. Gielen scite author profile

Tamoxifen treatment for breast cancer increases proliferation of the endometrium, resulting in an enhanced prevalence of endometrial pathologies, including endometrial cancer. An exploratory study was performed to begin to understand the molecular mechanism of tamoxifen action in the endometrium. Gene-expression profiles were generated of endometrial samples of tamoxifen users and compared with matched controls. The pathological classification of samples from both groups included atrophic/inactive endometrium and endometrial polyps. Unsupervised clustering revealed that samples of tamoxifen users were, irrespective of pathological classification, fairly similar and consequently form a subgroup distinct from the matched controls. Using SAM analysis (a statistical method to select genes differentially expressed between groups), 256 differentially expressed genes were selected between the tamoxifen and control groups. Upon comparing these genes with oestrogen-regulated genes, identified under similar circumstances, 95% of the differentially expressed genes turned out to be tamoxifen-specific. Finally, construction of a gene-expression network of the differentially expressed genes revealed that 69 genes centred around five well-known genes: TP53, RELA, MYC, epidermal growth factor receptor and b-catenin. This could indicate that these well-known genes, and the pathways in which they function, are important for tamoxifencontrolled proliferation of the endometrium.

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Analysis off Estrogen Agonism and Antagonism of Tamoxifen, Raloxifene, and ICI182780 in Endometrial Cancer Cells: A Putative Role for the Epidermal Growth Factor Receptor Ligand Amphiregulin

Gielen¹,

Burger²,

Kühne³

et al. 2005

Journal of the Society for Gynecologic Investigation

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Progesterone-Induced Inhibition of Growth and Differential Regulation of Gene Expression in PRA- and/or PRB-Expressing Endometrial Cancer Cell Lines

Smid-Koopman¹,

Kühne²,

Hanekamp³

et al. 2005

Journal of the Society for Gynecologic Investigation

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Progestagenic Effects of Tibolone on Human Endometrial Cancer Cells

Blok¹,

Ruiter²,

Kühne³

et al. 2003

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Tibolone, a synthetic steroid acting in a tissue-specific manner and used in hormone replacement therapy, is converted into three active metabolites: a Delta(4) isomer (exerting progestogenic and androgenic effects) and two hydroxy metabolites, 3 alpha-hydroxytibolone (3 alpha-OH-tibolone) and 3beta-OH-tibolone (exerting estrogenic effects). In the present study an endometrial carcinoma cell line (Ishikawa PRAB-36) was used to investigate the progestogenic properties of tibolone and its metabolites. This cell line contains progesterone receptors A and B, but lacks estrogen and androgen receptors. When tibolone was added to the cells, complete conversion into the progestogenic/androgenic Delta(4) isomer was observed within 6 d. Furthermore, when cells were cultured with tibolone or when the Delta(4) isomer or the established progestagen medroxyprogesterone acetate was added to the medium, marked inhibition of growth was observed. Interestingly, 3 beta-OH-tibolone also induces some inhibition of growth. These growth inhibitions were not observed in progesterone receptor-negative parental Ishikawa cells, and progestagen-induced growth inhibition of PRAB-36 cells could readily be reversed using the antiprogestagen Org-31489. Upon measuring the expression of two progesterone-regulated genes (fibronectin and IGF-binding protein-3), tibolone, the Delta(4) isomer and medroxyprogesterone acetate showed similar gene expression regulation. These results indicate that tibolone, the Delta(4) metabolite, and to some extent 3 beta-OH-tibolone exert progestogenic effects. Tibolone and most likely 3 beta-OH-tibolone are converted into the Delta(4) metabolite.

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Steroid-Modulated Proliferation of Human Endometrial Carcinoma Cell Lines: Any Role for Insulin-like Growth Factor Signaling?

Gielen¹,

Hanekamp²,

Blok³

et al. 2005

Journal of the Society for Gynecologic Investigation

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