A New Nude Mouse Model for Postmenopausal Breast Cancer Using MCF-7 Cells Transfected with the Human Aromatase Gene

Infection and Cancer: Biology, Therapeutics, and Prevention

Translational Medicine Conference in Israel

A New Nude Mouse Model for Postmenopausal Breast Cancer Using MCF-7 Cells Transfected with the Human Aromatase Gene¹

Wei Yue, Dujin Zhou, Shiuan Chen and Angela Brodie²

Department of Pharmacology and Experimental Therapeutics, University of Maryland School of Medicine, Baltimore, Maryland 21201 [W. Y., A. B.], and Division of Immunology, Beckman Research Institute, City of Hope, Duarte, California 91010 [D. Z., S. C.]

MCF-7 cells transfected with human placental aromatase gene(MCF-7Ca cells) or cells transfected with plasmid vector only(MCF-7Cc cells) were inoculated into nude mice with Matrigel.Tumors formed from both MCF-7Ca and MCF-7Cc cells grew fasterin intact mice than in ovariectomized mice, suggesting thatthe tumors maintained their responsiveness to estrogen stimulationand that their growth was supported by ovarian estrogen. Injectionsof androstenedione (0.1 mg/mouse/day) to provide the substratefor aromatization to ovariectomized mice bearing MCF-7Ca tumorsaccelerated their growth but did not affect growth of MCF-7Cctumors. This result indicates that local production of estrogenby intratumoral aromatase was sufficient to stimulate tumorgrowth. When ovariectomized mice with MCF-7Ca tumors supplementedwith androstenedione were treated with aromatase inhibitors4-hydroxyandrostenedione (1 mg/mouse/day, s.c.) or CGS 16949A(0.5 mg/mouse/day, s.c.), or with the antiestrogen tamoxifen(10 µg/mouse/day, s.c.), tumor growth was significantlyinhibited. Tumor aromatase activity measured at the end of treatmentwas also inhibited by 4-hydroxyandrostenedione when the micewere sacrificed 4 h after the last injection. The tumors ofthis mouse model are dependent for their growth on estrogensfrom an endogenous nonovarian source. Thus, it simulates thesituation in the postmenopausal breast cancer patient and couldbe used to evaluate the effect of aromatase inhibitors and antiestrogens.

^¹ This work was supported by NIH Grants CA-61206 and CA-44735.

^² To whom requests for reprints should be addressed.

Received 3/29/94. Accepted 7/27/94.

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				D. Jelovac, L. Macedo, O. G. Goloubeva, V. Handratta, and A. M.H. Brodie Additive Antitumor Effect of Aromatase Inhibitor Letrozole and Antiestrogen Fulvestrant in a Postmenopausal Breast Cancer Model Cancer Res., June 15, 2005; 65(12): 5439 - 5444. [Abstract] [Full Text] [PDF]

				J. Geisler and P. E. Lonning Aromatase Inhibition: Translation into a Successful Therapeutic Approach Clin. Cancer Res., April 15, 2005; 11(8): 2809 - 2821. [Abstract] [Full Text] [PDF]

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				A. Brodie, D. Jelovac, L. Macedo, G. Sabnis, S. Tilghman, and O. Goloubeva Therapeutic Observations in MCF-7 Aromatase Xenografts Clin. Cancer Res., January 15, 2005; 11(2): 884s - 888s. [Abstract] [Full Text] [PDF]

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A New Nude Mouse Model for Postmenopausal Breast Cancer Using MCF-7 Cells Transfected with the Human Aromatase Gene1

A New Nude Mouse Model for Postmenopausal Breast Cancer Using MCF-7 Cells Transfected with the Human Aromatase Gene¹

				W.-S. Shim, M. Conaway, S. Masamura, W. Yue, J.-P. Wang, R. Kumar, and R. J. Santen Estradiol Hypersensitivity and Mitogen-Activated Protein Kinase Expression in Long-Term Estrogen Deprived Human Breast Cancer Cells in Vivo Endocrinology, January 1, 2000; 141(1): 396 - 405. [Abstract] [Full Text] [PDF]

				D. Zhou, P. Clarke, J. Wang, and S. Chen Identification of a Promoter That Controls Aromatase Expression in Human Breast Cancer and Adipose Stromal Cells J. Biol. Chem., June 21, 1996; 271(25): 15194 - 15202. [Abstract] [Full Text] [PDF]