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Query: UNIPROT:P11684 (
Uteroglobin
)
114
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
To understand the molecular mechanism of endometrial differentiation we have initiated an analysis of the uteroglobin promoter.
Uteroglobin
is normally expressed in endometrial tissues under the control of ovarian hormones. In gene transfer experiments with the Ishikawa cell line, derived from a human endometrial adenocarcinoma, we have identified several regions in the promoter of the uteroglobin gene that are responsible for its endometrium-specific expression. To evaluate the generality of these findings, we have begun cloning the promoter regions of potential endometrial markers, including the rat, mouse, and human uteroglobin gene. In the rat, expression of the uteroglobin-like gene, CC10, is dominant in the lung but is also observed in the endometrium of progesterone treated animals. A comparison of the 5'-flanking sequence of the rat and rabbit uteroglobin gene resulted in the detection of similarities and differences that could explain their differential expression in vivo. To substantiate these findings we have established several cell lines from rat endometrium using murine retroviral vectors containing a positive selection marker and various viral oncogenes, such as SV40 large T antigen, adenovirus E1A, and Ha-
ras
. Cell lines immortalized by SV40 T-antigen were subsequently transformed with the Ha-
ras
oncogene. Several cell lines exhibit properties of epithelial endometrial cells. Two cell lines generated with a temperature sensitive mutant of the SV40 large T-antigen grow as transformed cells at the permissive temperature, but differentiate upon shifting to the non-permissive temperature. These rat endometrial cell lines should be useful for the analysis of endometrium-specific gene expression and as model systems for endometrial carcinoma.
...
PMID:Expression of the uteroglobin promoter in epithelial cell lines from endometrium. 206 10
To study the interplay of steroid hormones and oncogenes in the control of endometrial cell proliferation and differentiation we have generated cell lines derived from rat endometrium by expressing the immortalizing oncogenes adeno E1A or SV40 large T antigen. These lines are positive for mesenchymal markers and contain very few characteristic epithelial proteins. Cell lines expressing a temperature-sensitive mutant of SV40 T antigen exhibit a temperature-dependent morphology and growth behavior, but do not manifest an epithelial phenotype at the non-permissive temperature. Cell lines additionally infected with retroviral vectors carrying the v-Ha-
ras
oncogene (p21rasArg-12) no longer express collagen type III and recover part of their epithelial potential by expressing cytokeratins and/or cadherin E. Some of these cells also express characteristic decidual marker proteins such as desmin, whereas others express glandular epithelial markers such as uteroglobin.
Uteroglobin
mRNA levels in these cells are increased by glucocorticoids. The parental temperature-sensitive cells do not contain progesterone receptor but become positive for progesterone receptor at the permissive temperature after infection with the v-Ha-
ras
-expressing retrovirus. Our results indicate that there is a fluent transition and overlapping between mesenchymal, glandular epithelial and decidual phenotypes of endometrial cells, suggesting that these three cell types are derived from the same stem/precursor cells. The v-Ha-
ras
oncogene product appears to act on the differentiation pathway at an early step prior to the distinction between decidual and glandular epithelial lineage.
...
PMID:Expression of epithelial phenotype is enhanced by v-Ha-ras in rat endometrial cells immortalized by SV40 T antigen. 839 60
