Estrogen Signaling via a Linear Pathway Involving Insulin-Like Growth Factor I Receptor, Matrix Metalloproteinases, and Epidermal Growth Factor Receptor to Activate Mitogen-Activated Protein Kinase in MCF-7 Breast Cancer Cells

doi:10.1210/en.2007-0240

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Estrogen Signaling via a Linear Pathway Involving Insulin-Like Growth Factor I Receptor, Matrix Metalloproteinases, and Epidermal Growth Factor Receptor to Activate Mitogen-Activated Protein Kinase in MCF-7 Breast Cancer Cells

Robert X.-D. Song, Zhenguo Zhang, Yucai Chen, Yongde Bao and Richard J. Santen

Department of Internal Medicine (R.X.-D.S., Z.Z., Y.C., R.J.S.) and Biomolecular Research Facility (Y.B.), University of Virginia School of Medicine, Charlottesville, Virginia 22903

Address all correspondence and requests for reprints to: Richard J. Santen, Division of Endocrinology, University of Virginia Health Science Center, Charlottesville, Virginia 22903. E-mail: rjs5y{at}virginia.edu.

We present an integrated model of an extranuclear, estrogenreceptor- ${alpha}$ (ER ${alpha}$ )-mediated, rapid MAPK activation pathway in breastcancer cells. In noncancer cells, IGF-I initiates a linear processinvolving activation of the IGF-I receptor (IGF-IR) and matrixmetalloproteinases (MMP), release of heparin-binding epidermalgrowth factor (HB-EGF), and activation of EGF receptor (EGFR)-dependentMAPK. 17ß-Estradiol (E2) rapidly activates IGF-IRin breast cancer cells. We hypothesize that E2 induces a similarlinear pathway involving IGF-IR, MMP, HB-EGF, EGFR, and MAPK.Using MCF-7 breast cancer cells, we for the first time demonstratedthat a sequential activation of IGF-IR, MMP, and EGFR existedin E2 and IGF-I actions, which was supported by evidence thatthe selective inhibitors of IGF-IR and MMP or knockdown of IGF-IRall inhibited E2- or IGF-I-induced EGFR phosphorylation. Usingthe inhibitors and small inhibitory RNA strategies, we alsodemonstrated that the same sequential activation of the receptorsoccurred in E2-, IGF-I-, but not EGF-induced MAPK phosphorylation.Additionally, a HB-EGF neutralizing antibody significantly blockedE2-induced MAPK activation, further supporting our hypothesis.The biological effects of sequential activation of IGF-IR andEGFR on E2 stimulation of cell proliferation were also investigated.Knockdown or blockade of IGF-IR significantly inhibited E2-or IGF-I-stimulated but not EGF-induced cell growth. Knockdownor blockade of EGFR abrogated cell growth induced by E2, IGF-I,and EGF, indicating that EGFR is a downstream molecule of IGF-IRin E2 and IGF-I action. Together, our data support the novelview that E2 can activate a linear pathway involving the sequentialactivation of IGF-IR, MMP, HB-EGF, EGFR, and MAPK.

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