Progression of MCF-7 breast cancer cells to antiestrogen-resistant phenotype is accompanied by elevated levels of AP-1 DNA-binding activity.

We have isolated a variant of the MCF-7 human breast tumor that is characterized by a hormone-independent, yet hormone-responsive, phenotype. This tumor, designated MCF-WES, was derived from MCF-7 tumor cells implanted in the mammary fat pad of a nude mouse in the absence of estradiol supplementation. MCF-WES tumors remain responsive to estradiol; however, unlike the parental MCF-7 tumors, they are stimulated to grow by tamoxifen. Additionally, MCF-WES cells are resistant to the pure steroidal antiestrogen, ICI 182,780. To our knowledge, a tumor with this combination of properties has not yet been described. Nuclear estrogen receptor (ER) levels in MCF-WES cells were 10% of those for MCF-7 under steroid-depleted conditions. MCF-WES tumor ER levels were 32% of those in MCF-7 tumors. Similarly, in vivo expression of ER mRNA for MCF-WES was 20% of levels determined for MCF-7. Further characterization of MCF-WES cells showed that they have increased levels of AP-1 DNA-binding activity. The marked increase in AP-1 binding activity may act to bypass the hormone dependence that is a characteristic of MCF-7 cells. It is also probable that the increase in AP-1 binding activity is responsible for the finding that MCF-WES cells secrete greater quantities of metalloproteinase activity in comparison to parental MCF-7 cells, suggesting progression to a more invasive, malignant phenotype. More complete characterization of this new cell line will help elucidate hormone-independent breast cancer and possibly identify targets for therapy.