Prolactin receptor antagonists that inhibit the growth of breast cancer cell lines.
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Fuh G, Wells JA
Prolactin receptor antagonists that inhibit the growth of breast cancer cell lines.
J Biol Chem. 1995 Jun 2;270(22):13133-7.
- PubMed ID
- 7768908 [ View in PubMed]
- Abstract
We investigated the mechanism of action of the human prolactin (hPRL) receptor on four different breast cancer cell lines, T-47D, MCF-7, BT-474, and SK-BR3, that express elevated levels of the receptor compared with normal cells. Cells treated with human growth hormone (hGH), which binds and activates the hPRL receptor, exhibited bell-shaped dose-response growth curves consistent with the sequential dimerization mechanism proposed for the hPRL receptor (Fuh, G., Colosi, P., Wood, W.I., and Wells, J.A. (1993) J. Biol. Chem. 268, 5376-5381). Growth stimulation was enhanced by Zn2+, which preferentially increases the affinity of hGH for the hPRL receptor. Furthermore, receptor-selective variants of hGH that bind the hPRL receptor but not the hGH receptor were agonistic, providing additional support that specific binding to the hPRL receptor can stimulate these breast cancer cells to grow. On this basis we produced variants of hGH and human placental lactogen (hPL) that were potential antagonists because they bind but do not dimerize the hPRL receptor. The hPL-based antagonist was less potent than the hGH-based antagonist toward the growth of MCF-7 cells, consistent with the lower affinity of hPL for hPRL receptor than for hGH. However, the hPL-based antagonist was more potent than the hGH antagonist for BT-474 cells. Antibodies to the hPRL receptor inhibited growth of FDC-P1 cells transfected with the hPRL receptor; these also inhibited MCF-7 cells and T47D cells but not BT-474 cells. A unique feature of BT-474 cells was found when screening its cDNA revealed the presence of a novel alternative splice of the hPRL receptor that codes for the soluble extracellular domain; this may explain these differential inhibitory effects. These studies provide further molecular insight into the potential role of the hPRL receptor in breast cancer and demonstrate that hPRL receptor antagonists can inhibit the growth of breast cancer cells.