RECOMBINANT INSULIN-LIKE GROWTH-FACTOR BINDING PROTEIN-1 INHIBITS IGF-I, SERUM, AND ESTROGEN-DEPENDENT GROWTH OF MCF-7 HUMAN BREAST-CANCER CELLS

Citation
Ja. Figueroa et al., RECOMBINANT INSULIN-LIKE GROWTH-FACTOR BINDING PROTEIN-1 INHIBITS IGF-I, SERUM, AND ESTROGEN-DEPENDENT GROWTH OF MCF-7 HUMAN BREAST-CANCER CELLS, Journal of cellular physiology, 157(2), 1993, pp. 229-236
Citations number
38
Categorie Soggetti
Physiology,"Cytology & Histology
ISSN journal
00219541
Volume
157
Issue
2
Year of publication
1993
Pages
229 - 236
Database
ISI
SICI code
0021-9541(1993)157:2<229:RIGBPI>2.0.ZU;2-W
Abstract
The insulin-like growth factors (IGFs) are potent mitogens for breast cancer cells and their activity is modulated by high affinity binding proteins (IGFBPs). We have recently shown that IGFBP-1 purified from h uman amniotic fluid neutralizes IGF-I-dependent growth of MCF-7 cells. In this study we examined the effects of recombinant IGFBP-1 (rBP-1) on IGF-1, estradiol (E2), and serum-induced monolayer and anchorage in dependent growth (AIG) of MCF-7 cells. Under serum-free conditions, rB P-1 had no effect on MCF-7 basal monolayer growth. However, 40 nM rBP- 1 completely blocked the mitogenic action of both IGF-I and 5% charcoa l stripped serum (CSS). This concentration of rBP-1 partially inhibite d E2-induced growth, while 80 nM rBP-1 completely abolished E2 mitogen icity. The addition of either excess IGF-I or 5 nM [Arg3]IGF-I, a spec ies that does not bind IGFBPs, neutralized rBP-1 inhibitory effects. I n AIG assays, 80 nM rBP-1 reduced colony number by at least 70% and de creased colony size in all treatment groups compared to control. We ex amined rBP-1 effects on both IGF-I binding to MCF-7 membranes and acti vation of type I IGF receptor (IGFR1) and found that 80 nM rBP-1 reduc ed IGF-I receptor binding to levels of nonspecific binding and complet ely abolished ligand-dependent IGFR, phosphorylation. However, neither treatment with 5% CSS nor exposure to E2 resulted in IGFR, phosphoryl ation suggesting that different mechanism(s) are responsible for rBP-1 inhibitory action under this condition. Our data suggest rBP-1 may se rve as an antagonist of human breast cancer growth by interfering with growth factor-mediated cell proliferation. (C) 1993 Wiley-Liss, Inc.