Increased autocrine production of insulin-like growth factor II (IGF-II) alters serum sensitivity of MCF-7 human breast cancer cell proliferation.

Regulation of the growth of breast cancer cells is the result of a complex interaction between steroid hormones and growth factors, and in particular of oestrogen and insulin-like growth factors (IGF). Alteration of any one mitogenic component can affect the cell response to other pathways. Previous work has shown that increased autocrine production of IGF-II from a transfected inducible expression vector can result in reduced oestrogen sensitivity of growth of MCF-7 human breast cancer cells. This report describes alterations to non-oestrogen regulated pathways of cell growth following enhanced IGF-II expression in these transfected MI7 cells. Serum sensitivity of cell growth in the absence of oestrogen was found to differ between MI7 and untransfected MCF-7 cells, in that growth of MI7 but not MCF-7 cells was strongly inhibited by high serum levels. Increased serum had no effect on levels of IGF-II mRNA, IGFIR, IGFBP4 mRNA, or IGFBP secreted in MI7 cells. However, growth inhibition by serum in MI7 cells could be overcome by increasing levels of IGF-II in the serum or by removal of IGFBP onto polycarbonate membranes. Thus, the growth inhibition by serum in MI7 cells is concluded to result from the increased levels of IGFBP added with higher serum. This would support an inhibitory role for IGFBP on growth of breast cancer cells when cell growth is being driven by IGF pathways in the absence of oestrogen, and would suggest that cellular sensitivity to such factors can depend on levels of endogenous IGF production.