To better understand the actions of estrogens and antiestrogens in estrogen target cells, we have searched for estrogen-regulated genes in human breast cancer cells, in which the number of genes known to be directly activated by estrogen is quite small. Using differential display RNA methods, we have identified the human homolog of the Na+ -H+ exchanger regulatory factor (NHE-RF), an approximately 50-kDa protein that is also an ezrin-radixin-moesin-binding phosphoprotein, as being under rapid and direct regulation by estrogen in estrogen receptor (ER)-containing breast cancer cells. Stimulation by estrogen of NHE-RF RNA is rapid, being near maximal (approximately 6-fold) by 1 h, and is not blocked by cycloheximide, indicating that it is a primary response. Stimulation is selective for estrogen ligands, with no stimulation by other classes of steroid hormones, and stimulation by estrogen is suppressed by the antiestrogens tamoxifen and ICI 182,780. Induction is shown to require an active ER through several approaches, including the use of ER-negative breast cancer cells containing a stably integrated ER. NHE-RF protein levels, monitored using antibodies specific for this protein, increase after estrogen and reach maximal levels at 24-48 h. Interestingly, NHE-RF is a PDZ domain-containing protein that is enriched in polarized epithelia, where it is known to be localized in microvilli. Among various human tissues we have examined, we found that NHE-RF is expressed at a fairly high level in mammary tissue. NHE-RF regulates protein kinase A inhibition of the Na+ -H+ exchanger and may serve as a scaffold adaptor protein that contributes to the specificity of signal transduction events. Our findings suggest that the early, known effects of estrogen on cell cytoarchitecture (e.g. increasing microvilli on breast cancer cells) and on some cell signaling pathways (e.g. those involving cAMP) may involve rapid estrogen-mediated changes in the production of NHE-RF.
To better understand the actions of estrogens and antiestrogens in estrogen target cells, we have searched for estrogen-regulated genes in human breast cancer cells, in which the number of genes known to be directly activated by estrogen is quite small. Using differential display RNA methods, we have identified the human homolog of the Na+ -H+ exchanger regulatory factor (NHE-RF), an approximately 50-kDa protein that is also an ezrin-radixin-moesin-binding phosphoprotein, as being under rapid and direct regulation by estrogen in estrogen receptor (ER)-containing breast cancer cells. Stimulation by estrogen of NHE-RF RNA is rapid, being near maximal (approximately 6-fold) by 1 h, and is not blocked by cycloheximide, indicating that it is a primary response. Stimulation is selective for estrogen ligands, with no stimulation by other classes of steroid hormones, and stimulation by estrogen is suppressed by the antiestrogens tamoxifen and ICI 182,780. Induction is shown to require an active ER through several approaches, including the use of ER-negative breast cancer cells containing a stably integrated ER. NHE-RF protein levels, monitored using antibodies specific for this protein, increase after estrogen and reach maximal levels at 24-48 h. Interestingly, NHE-RF is a PDZ domain-containing protein that is enriched in polarized epithelia, where it is known to be localized in microvilli. Among various human tissues we have examined, we found that NHE-RF is expressed at a fairly high level in mammary tissue. NHE-RF regulates protein kinase A inhibition of the Na+ -H+ exchanger and may serve as a scaffold adaptor protein that contributes to the specificity of signal transduction events. Our findings suggest that the early, known effects of estrogen on cell cytoarchitecture (e.g. increasing microvilli on breast cancer cells) and on some cell signaling pathways (e.g. those involving cAMP) may involve rapid estrogen-mediated changes in the production of NHE-RF.
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