Elisabeth Strunck

Relative binding affinity does not predict biological response to xenoestrogens in rat endometrial adenocarcinoma cells.

The possible adverse effects of the so-called environmental estrogens have raised considerable concern. Developmental, endocrine and reproductive disorders in wildlife animals have been linked to high exposure to persistent environmental chemicals with estrogen-like activity (xenoestrogens); yet, the potential impact of environmental estrogens on human health is currently under debate also due to lack of data. A battery of in vitro assays exist for identifying compounds with estrogenic activity, but only a few models are available to assess estrogenic potency in a multiparametric analysis. We have recently established the endometrial adenocarcinoma cell line RUCA-I; it enables us to compare estrogenic effects both in vitro and in vivo as these cells are estrogen responsive in vitro and grow estrogen sensitive tumors if inoculated in syngeneic animals in vivo. Here we report in vitro data concerning (a) the relative binding affinity of the selected synthetic chemicals Bisphenol A, nonylphenol, p-tert-octylphenol, and o,p-DDT to the estrogen receptor of RUCA-I cells and (b) the relative potency of these compounds in inducing increased production of complement C3, an endogenous estrogen-responsive gene. Competitive Scatchard analysis revealed that xenoestrogens bound with an at least 1000-fold lower affinity to the estrogen receptor of RUCA-I cells than estradiol itself, thereby exhibiting the following affinity ranking, estradiol>>>nonylphenol>bisphenol A approximately p-tert-octylphenol>o,p-DDT. Despite these low binding affinities, bisphenol A, nonylphenol and p-tert-octylphenol increased production of complement C3 in a dose dependent manner. Compared with estradiol, only 100-fold higher concentrations were needed for all the compounds to achieve similar levels of induction, except o,p-DDT which was by far less potent. Northern blot analyses demonstrated that the increased production of complement C3 was mediated by an increased transcription. In summary, cultured RUCA-I cells represent a valuable endometrial derived model system to assess the relative potencies and the molecular mode of action of environmental estrogens in vitro. Our results further show that no intimate correlation exists between the relative binding affinity and the biological response of these compounds. Therefore, data obtained from single-parametric analyses may result in misleading conclusions. On the other hand, the presented in vitro data will provide us with tools to study the activity of xenoestrogens in vivo and thus carry risk assessment one step further.

A novel basement membrane-induced gene identified in the human endometrial adenocarcinoma cell line HEC1B

Cultured HEC1B human endometrial adenocarcinoma cells respond to reconstituted basement membrane (Matrigel) by morphological and functional differentiation in vitro. Our goal is to identify genes involved in this differentiation process. By means of rt‐PCR, we were able to isolate the novel 2.4 kb Matrigel‐induced transcript icb‐1 containing an open reading frame predicting a 31.7 kDa protein. The time‐dependent induction of icb‐1 gene expression by basement membrane was confirmed by Northern blot experiments. In a data bank search, several EST homologues corresponding to the 3′ untranslated region could be found. In summary, icb‐1 as a new tool enables us to study molecular mechanisms of cell‐matrix interactions contributing to carcinogenesis.

Extracellular matrix regulates steady-state mRNA levels of the proliferation associated protein Ki-67 in endometrial cancer cells

We investigated whether components of the extracellular matrix have the potential to regulate the proliferative activity of endometrial adenocarcinoma cells. Culturing of cells on the reconstituted basement membrane matrigel down-regulated the steady-state mRNA levels of the proliferation associated protein, Ki-67, in the endometrial adenocarcinoma cell lines HEC 1B(L) and Ishikawa after 48-96 h of culture on the matrix substrate. Proliferation of Ishikawa was stimulated again if cells were cultured on matrigel and challenged by proteins representing functional domains of tenascin-C, a mesenchymal glycoprotein. The fibronectin-type-III-like repeats 6-8 of tenascin-C were found to be the most potent. In summary, evidence is provided that components of both epithelial and stromal extracellular matrices can function as regulators of cell growth.

Estrogenic and antiestrogenic regulation of MMP-2 and MMP-13 mRNA in RUCA-I endometrial tumor cells in vitro and in vivo

We investigated the influence of estrogenic and antiestrogenic treatment on proteolytic activity--especially on MMP-2 and MMP-13--in the RUCA-I transplantable endometrial tumor model. Morphological studies demonstrate that RUCA-I cells are forming highly differentiated gland-like structures by remodelling and invading the underlying ECM. Estrogens upregulate the mRNA levels of MMP-2 and MMP-13 in the rat uterus. Treatment with the pure antiestrogen ICI 182,780 results in the downregulation of MMP-2 and MMP-13 mRNA. The same regulation for MMP-13 mRNA is found in vitro in RUCA-I cells. In contrast, in the transplantation tumor, the mRNA level of MMP-13 is repressed by estrogens and induced by ICI 182,780. MMP-2 mRNA is not regulated by hormones in the transplantation tumor and in RUCA-I cells. The divergent regulation suggests a varying influence of cell-cell-, cell-extracellular matrix interactions and soluble factors.

Estrogen-dependent and cell-specific regulation of gene expression in RUCA-I endometrial adenocarcinoma cells

Estrogens are believed to play a crucial role in growth regulation and differentiation of the normal endometrial tissue as well as in the carcinogenesis of the endometrium. Therefore, the influence of estrogens and antiestrogens on gene expression in the estrogen receptor-positive rat endometrial adenocarcinoma cell line RUCA-I was investigated. Differentially expressed genes were detected by differential display PCR of RNA of untreated, estradiol-treated and antiestrogen-treated RUCA-I cells. By means of the PCR technique, 14 differentially expressed fragments could be detected. Three of these 14 differentially expressed fragments were confirmed by Northern blotting. The steady state mRNA levels of the three gene fragments named AH41, AH42 and AH44 were downregulated by the antiestrogen ICI 164384. Further characterization revealed that the fragment AH41 is not expressed in stromal cells but in the human and rodent epithelial cell lines, BG-1 and RUCA-II. A comparison of the cDNA sequence of fragment AH41 with the EMBL database showed no high homology to known genes. Therefore, fragment AH41 has to be regarded as a fragment of a novel, estradiol-sensitive gene.

Regulation of Gene Expression in Endometrial Cancer Cells: Role of Extracellular Matrix in Mitochondrial Gene Expression

The biological role of mitochondria becomes increasingly important in the understanding of the regulation of physiological and pathophysiological conditions. Nevertheless, comparatively little is known about the possible factors regulating mitochondrial activity and, in particular, mitochondrial gene expression. Recently, we analyzed the molecular basis of the interaction between endometrial adenocarcinoma and reconstituted basement membrane. Applying a differential display reverse transcription-polymerase chain reaction, we identified several gene fragments with apparently differential expression patterns of corresponding mRNA. Here we report on the identification and characterization of a fragment representing the mitochondrial encoded protein NADH-dehydrogenase 6 (ND6), a protein of the electron transport chain. Northern blot hybridization confirmed the downregulation of ND6 in endometrial adenocarcinoma cells in response to a reconstituted basement membrane. We further confirmed that contact with basement membrane components represses the gene transcription of both independently controlled overlapping transcription units of the mitochondrial genome. Treatment of cells with cydoheximide did not block the mitochondrial transcription rate. Nevertheless, nuclear extracts were capable of shifting the promoter elements of mitochondrial low and heavy strand promoters, providing evidence in favor of a nuclear/mitochondrial signaling pathway. Furthermore, our study clearly shows that extracellular factors are involved in the regulation of intracellular signaling, as well as signal transfer between cellular organelles. The understanding of the molecular basis of this mechanism, its regulation, and its metabolic consequences may provide an important insight into the involvement of mitochondrial activity in the process of carcinogenesis.