Normal hypothalamic-pituitary testicular and prostatic functions are essential for maintenance of male fertility, whereby glycoprotein hormones (GPH) as well as androgens are major endocrine and local regulators. We have investigated whether the GPH human chorionic gonadotropin (hCG) and the free alpha and beta subunits thereof are produced in the target organs themselves and potentially act as auto/paracrine modulators of fertility. Immunofluorometric assays (IFMAs) based on our panel of highly selective monoclonal antibodies, immunohistochemistry (IHC), confocal laser scanning microscopy (CLSM) and 1- and 2D gel electrophoreses with subsequent western blotting have been utilized for the detection of hCGalpha, hCGbeta and its metabolite hCGbeta core fragment (cf) in human testis, prostate and seminal plasma. Both organs synthesize hCGalpha and hCGbeta, which are subsequently detectable at high concentrations in seminal plasma of healthy probands (n=17): hCGalpha 2630+/-520 ng/mL (mean+/-S.E.M.), hCGbeta 2+/-0.28 ng/mL, hCGbetacf and hCG 0.19+/-0.039 ng/mL. These parameters significantly exceed physiological values, e.g. ten thousand-fold in the case of hCGalpha, in serum of young men (n=20): hCGalpha 0.142+/-0.054 ng/mL (mean+/-S.E.M.), hCGbeta 0.05 ng/mL and hCG 0.004+/-0.003 ng/mL. Levels of these markers were not correlated with sperm counts. Of all body fluids including those of pregnant women seminal plasma is the richest physiological source for genuine free i.e. non-dissociated GPHalpha (M(r,app) 23k) which may even appear as di- or tetramers. Its concentration is similar to that observed in maternal serum (weeks 10-12 of gestation) and in extra-embryonic coelomic fluid. In contrast to those fluids where ratios of free subunits to hCG are in the range of 1:100 highly inverse ratios in the range of 10.000:1.000:1 were observed for hCGalpha:hCGbeta:hCG in seminal plasma. hCGalpha is not derived from heterodimeric GPH suggesting hCG-independent functions of hCGalpha and hCGbeta in male and female fertility.