Use of monoclonal antibodies to subunits of human chorionic gonadotropin to examine the orientation of the hormone in its complex with receptor.

AUTOR(ES)

Moyle, W R

RESUMO

Monoclonal antibodies were prepared against the alpha and beta subunits of human chorionic gonadotropin (hCG). Although all were selected on the basis of their ability to bind the intact hormone, each also bound one of the two subunits but not both. Using a solid phase double antibody system to measure the relative binding to sites on the surface of hCG, we observed that four of the five antibodies bound to different sites on the molecule. This information was correlated with the ability of each antibody to inhibit the biological activity of hCG. Of the five antibodies tested for their ability to inhibit hCG-induced stimulation of rat testes steroidogenesis in vitro, two proved to be potent inhibitors, whereas the other three had almost no effect. This inhibition of steroidogenesis was highly correlated with the ability of the antibodies to inhibit hCG binding to testes homogenates. Thus, we have begun to derive a scheme that describes the relative binding positions of individual monoclonal antibodies and receptor on hCG. The purified monoclonal antibodies were iodinated and employed to evaluate which antigenic sites on hCG remained free in hCG-receptor complexes. The data indicated that portions of the beta subunit in hCG-receptor complexes were buried (i.e., failed to bind radiolabeled antibody), whereas other portions remained exposed (i.e., they bound radiolabeled antibody). Those antibodies that interacted with portions of hCG that became inaccessible in the receptor complex also blocked the biological actions of hCG, whereas those that interacted with exposed sites had little or no effect on activity. Although we did not find antibodies to the alpha subunit that would bind to the hormone-receptor complex, we found that one of the two antibodies specific to alpha subunit epitopes blocked the actions of the hormone. Both antigenic determinants on the alpha subunit appeared to be lost after the hCG-receptor complex had formed. These studies suggest that each hCG subunit participates in the hormone-receptor complex and that portions of the beta subunit project from the surface of the receptor.

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