Relationship of BTG2 expression and anastrozole resistance in breast cancer.

Abstract

220 Background: The B-cell translocation gene-2 (BTG2) belongs to a class of proteins known as the Tob and BTG antiproliferative protein family. It was shown that estrogen and progesterone suppress BTG2 expression for the development of mammary gland. We demonstrated that proliferation rate of low level BTG2 expression in MCF7 was strongly inhibited by the administration of tamoxifen. In postmenopausal breast cancer patients, androgens can be converted to mitogenic estrogens by aromatase in breast cancer cells. Based on these results, we hypothesized that BTG2 expression affects the sensitivity against aromatase inhibitior. Methods: We used tetracycline-inducible BTG2 expression model in MCF7 stably transfected with the human aromatase gene (MCF7/tet/aro) as in vitro models of aromatase-driven breast cancer. The effects of BTG2 expression and administration of anastrozole in breast cancer cells were assessed by proliferation assays. Results: Administration of androstendion increased 79.1% of cellular proliferation, suggested that introduced aromatase gene worked well. Elevated level of BTG2 mRNA expression by tetracycline treatment was confirmed by Quantitative-RTPCR. Anastrozole treatment (100nM) reduced 37.8% of cellular proliferation ability, whereas the concomitant administration of tetracycline and anastorozole reduced 59.0% of cellular proliferation. These results suggested that the inhibitory effect of anastrozol for cellular proliferation was enhanced under the condition of BTG2 expression. Conclusions: Our results suggested loss of BTG2 expression may be affects the sensitivity against aromatase inhibitor.