Estrogenic effect on the expression of estrogen receptor, COUP-TF, and lactoferrin mRNA in developing mouse tissues.

We have previously demonstrated that lactoferrin (LF) is a major estrogen-inducible protein in the mouse uterus. The increase of LF mRNA after estrogen treatment (> 300 fold) is the result of a complex interplay among transcription factors acting on the estrogen response element (ERE) of the LF gene. Two transcription factors-the estrogen receptor (ER) and the chicken ovalbumin upstream promoter transcription factor (COUP-TF)-play opposing roles in the estrogen responsiveness of the LF gene promoter-reporter constructs in transiently transfected human endometrial carcinoma cells. The ratio of ER/COUP-TF in the transfected cells appears to be critical for estrogen-stimulated LF gene promoter activity (Liu et al, 1993). In the current study, ER and COUP-TF mRNA levels are examined and related to LF mRNA expression in various mouse tissues, including the developing uterus with/without estrogen stimulation. Results show that LF mRNA and protein are expressed in various tissues during development, but the potent synthetic estrogen, diethylstilbestrol (DES), does not increase LF mRNA expression in nonreproductive tissues such as liver, spleen, and lung. In contrast, in developing neonatal reproductive tract tissues, DES increases LF mRNA and protein expression as previously reported in immature and mature uterine tissues. DES, however, did not affect ER and COUP-TF expression in developing uterine tissues. Although the uterus has a high ratio of ER/COUP-TF as compared to other tissues examined, COUP-TF may not be the only regulator for LF gene expression in this particular tissue since COUP-TF remains constant during development and following DES treatment. These data point to the complexity of differential expression of LF gene in estrogen responsive and nonresponsive tissues during development.