Abstract: | Human choriogonadotropin (hCG) analogues, containing the native beta-subunit and alpha-subunits enzymatically shortened by 2-3 amino acid residues, were used for studying the influence of hCG on the content of microsomal progesterone-binding cytochrome P-450 in rat testis. When 2-3 residues have been removed from the alpha-subunit, the ability of the hormone analogue to stimulate adenylate cyclase of isolated rat Leydig cells was diminished by 55%. When the hCG analogue containing a des-(88-92)-alpha chain was applied, the residual activity of the adenylate cyclase was negligible. 18 h after administration to rats in vivo, the hormone species containing des-(Lys-91-Ser-92)-alpha or des-(90-92)-alpha, respectively, were found to have induced a decrease in microsomal cytochrome P-450 content with an effectiveness corresponding to their ability of stimulating the adenylate cyclase in vitro. However, when assayed 48 h after application, the desensitization of the microsomal cytochrome P-450 system had persisted in case of the hCG species containing a des-(90-92)-alpha chain but not in case of hCG consisting of des-(Lys-91-Ser-92)-alpha and a native beta-subunit. From these results, it is concluded that short-term effects of hCG on the microsomal content of progesterone-binding cytochrome P-450 are mediated by the stimulation of adenylate cyclase. In contrast, the long-lasting action of hCG on this system seems not to be exclusively mediated by the increase in intracellular cAMP. |