Institution: | a Department of Medicine, University of Texas Health Science Center, San Antonio, TX 78284-7884, USA b Department of Medicine, University of North Carolina, Chapel Hill, NC 27599, USA c Department of Medicine and Cell Biology, Vanderbilt University School of Medicine, Nashville, TN 27232-5536, U.S.A. |
Abstract: | The IGFs may be important autocrine, paracrine or endocrine growth factors for human breast cancer. IGF-I and II stimulate growth of cultured human breast cancer cells. IGF-I is slightly more potent, paralleling its higher affinity for the IGF-I receptor. Antibody blockade of the IGF-I receptor inhibits growth stimulation induced by both IGFs, suggesting that this receptor mediates the growth effects of both peptides. However, IGF-I receptor blockade does not inhibit estrogen (E2)-induced growth suggesting that secreted IGFs are not the major mediators of E2 action. Several breast cancer cell lines express IGF-II mRNA by both Northern analysis and RNase protection assay. IGF-II activity is found in conditioned medium by radioimmuno and radioreceptor assay, after removal of somatomedin binding proteins (BP) which are secreted in abundance. IGF-I is undetectable. BPs of 25 and 40 K predominate in ER-negative cell lines while BPs of 36 K predominate in ER-positive cells. Blockade of the IGF-I receptor inhibits anchorage-independent and monolayer growth in serum of a panel of breast cancer cell lines. Growth of one line (MDA-231) was also inhibited in vivo by receptor antibody treatment of nude mice. The antibody had no effect on growth of MCF-7 tumors. These data suggest the IGFs are important regulators of breast cancer cell proliferation and that antagonism of this pathway may offer a new treatment strategy. |