We studied the mode of iron transport and storage in a human breast cancer cell line (HT-24) in comparison with a breast epithelial cell line (HBL-100). It was found that HT-24 cells incorporated over 18 h more 59Fe as compared to HBL-100 (24 vs. 16%). Yet, the number of surface transferrin-binding sites was less in cancer cells (6.2 × 105) than in epithelial cells (8 × 105). Moreover, the transferrin receptors in cancer cells were less affected by iron overloading as compared with epithelial cells. Following immunoprecipitation of isoferritins with specific monoclonal antibodies (MoAbs), it was found that the quantity of de novo synthesized normal ferritin immunoprecipitated with CM-G-8 MoAb was similar in both cancer and epithelial cells. However, the amount of 59Fe incorporated into the protein was significantly higher in HBL-100 cells. In contrast, HT-24 cells synthesized a high amount of placental-like isoferritin (PLF) immunoprecipitated with CM-H-9 MoAb which was significantly higher (p < 0.001) than in epithelial cells. This isoferritin was characterized by its low iron incorporation. It is noteworthy that the ratio of PLF to normal ferritin was 2:1 in cancer cells and 0.7:1 in epithelial cells, indicating that PLF is a major type of isoferritin synthesized by HT-24 breast cancer cells. Furthermore, a significant amount of PLF was expressed on the surface of cancer cells as compared to epithelial cells. The results of this study suggest that iron supply and distribution in breast neoplastic cells are not controlled similarly to normal cells.
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