Abstract

Minimal deviation hepatoma (Hepa) cells, from the mouse hepatoma B7756, synthesize and secrete haemopexin and express both the haemopexin receptor and the membrane haem-binding protein (MHBP) associated with the receptor, making this cell line the first available for detailed study of both haemopexin metabolism and hepatic transport. The 17.5 kDa MHBP was detected in Triton X-100 extracts of Hepa cells by immunoblotting with goat anti-rabbit MHBP. Scatchard-type analysis of haem-125I-haemopexin binding at 4 degrees C revealed 35,000 receptors per cell of high affinity (Kd 17 nM). Haemopexin-mediated haem transport at 37 degrees C is saturable, having an apparent Km of 160 nM and a Vmax. of 7.5 pmol of haem/10(6) cells per h during exponential growth. Haem-transport capacity is highest in the period just before the cells enter their exponential phase of growth and slowest in stationary phase. Interestingly, haem-haemopexin serves as effectively as iron-transferrin as the sole source of iron for cell growth by Hepa cells. Furthermore, depriving Hepa cells of iron by treatment with desferrioxamine (DF) increases the number of cell-surface haemopexin receptors to 65,000 per cell and consequently increases haemopexin-mediated haem transport. The effects of DF do not appear to require protein synthesis since they are not prevented by cycloheximide. Treatment of Hepa cells with hydroxyurea, an inhibitor of the iron-requiring enzyme ribonucleotide reductase that is obligatory for DNA synthesis, enhanced haemopexin-mediated haem transport. Thus, these studies provide the first evidence for regulation of haem transport by the iron status of cells and suggest a linkage between haemopexin, iron homeostasis and cell growth.

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