Ultrastructural immunoperoxidase investigations of HCG binding to isolated testicular intertubular cells.

The binding and processing of human chorionic gonadotrophin (HCG) on isolated rat testicular intertubular cells was investigated using an ultrastructural immunoperoxidase technique. Following incubation of isolated cells with HCG at a range of temperatures and time intervals, cells were fixed and the presence of HCG demonstrated using monoclonal and polyclonal antibodies to HCG and its alpha and beta subunits. Results indicated that HCG binds to the surface of the Leydig cells where it is rapidly split into its component subunits. Internalization of the HCG molecule was not demonstrated. The testicular macrophages also bound HCG. In contrast to the Leydig cells they were able to internalize the molecule into lysosomes in the cytoplasm. The complete molecule and the alpha and beta subunits were found within the cells. The study suggests that results of previous studies using mixed populations of isolated cells may be due to the combined effects of the different mechanisms present in the two cell types. It is postulated that Leydig cells bind HCG on the surface and cyclic AMP is activated prior to breakdown and loss of the hormone from the surface of the cells. It is postulated that the macrophages play a role in the breakdown of excess trophic hormone and act in concert with the Leydig cells in the local control of testicular function.