Abstract
125I-Labeled human choriogonadotropin (125I-hCG) bound to rat ovarian receptor was solubilized in Triton X-100. By using increasing concentrations of nine different antisera specific for the individual subunits of human choriogonadotropin (hCG), free 125I-hCG or 125I-hCG-receptor complex was precipitated by double-antibody technique. The ability of any antiserum to bind to the hormone-specific beta subunit was not affected by hCG binding to receptor, suggesting that this subunit is not directly involved with the receptor in the final state of the hormone-receptor complex. In contrast, every antiserum specific for the alpha subunit was dramatically inhibited in binding to the solubilized 125I-hCG-receptor complex. These results suggest that the alpha subunit directly interacts with the receptor, thereby masking immunoreactive sites normally available on the free hormone. Because a number of reports describe binding activity of high concentrations of immunopurified beta subunits of hCG, we propose a two-step model for the binding of hCG to receptor and postulate separate and distinct roles for the subunits. We propose that the binding of hCG to the receptor involves a specific low-affinity initial interaction of the beta subunit with the receptor that activates a second site for the high-affinity binding of alpha subunit and stabilization of the hormone-receptor complex.
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Selected References
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