Localisation du récepteur des androgènes dans le testicule

Whether or not germ cells contain the androgen receptor remains a matter of controversy. In the present study we performed biotinstreptavidin immunoperoxidase using an affinity purified rabbit polyclonal antibody made to a 21 amino acid peptide of the amino terminus of the rat AR to determine androgen receptor (AR) distribution in the rat and mouse testes. Specificity of the antibody was confirmed as follows: 1) Western immunoblots rendered a specific band at approximately 110 kD; 2) preadsorption of the antibody with the 21 amino acid peptide eliminated specifice immunostaining; 3) the intensity of staining in all AR positive cells diminished as a function of antisera dilution; 4) tissues known to express abundant AR (e.g., epididymis, prostate, seminal vesicles) all rendered a robust, nuclear AR immunostaining pattern in the epithelial cells; 5) prostate cell lines known to express AR immunostained positive with the antibody; 6) AR negative COS-7 cells became AR immunopositive when transfected with a vector expressing the rat AR and intracellular AR distribution was a function of androgens. AR immunostaining results revealed the following: Within the interstitial compartment of adult rats, AR was detected in some Leydig cells and all smooth muscle cells forming the walls of blood vessels, but endothelial cells were negative. In the seminiferous tubules AR was observed in all peritubular myoid cell nuelei, but not in the distal layer of Iymphatic endothelial cells. In Sertoli cells, nuclear AR immunostaining was stage specific; moderate AR immunostaining became evident at late stage IV of the cycle, reached a robust peak at stages VII-VIII, and then disappeared completely. Specific AR immunostaining was also discerned in the nuclei of stage XI elongated spermatids, in which nuclear elongation is apparent but chromatin condensation has not yet begun. With onset of chromatin condensation, nuclear AR immunostaining in elongated spermatids was not discerned concomitant with its detection in the cytoplasm. In general, similar observations have now been confirmed in the adult mouse testis, except that an Leydig cells were strongly AR positive. Nucleic acid in situ hybridization studies for AR were performed in adult rat testis using a 236 bp antisense cRNA probe (rat AR cDNA was provided by Dr. C. Chang, U. Wisconsin, Madison, WI) to confirm the AR immunostaining. A prominent hybridization signal at the base of the seminiferous epithelium was observed, in the area occupied by Sertofi and spermatogonia. This led us to re-examine the immunostaining results to determine if spermatogonia were also AR positive. Preliminary results are consistent with the interpretation that AR is present in certain spermatogonial populations. Taken together, these results concur with prior observations suggesting that AR is present in the somatic cells of the testis; thus, it is these cell types that likely respond to circulating androgens to control spermatogenesis. However, they raise anew the controversy of whether germ cells respond directly to androgens.