The binding of 3H-17-beta-estradiol to human ejaculated spermatozoa and to its subcellular structures was studied. The binding kinetics of the labeled steroid to whole spermatozoa followed a parabolic pattern. Scatchard-type plots showed the presence of high-affinity binding sites (1.56 +/- 0.23 X 10(4) per sperm cell) with an apparent Kd of 6.6 X 10(-10) M. In competition experiments testosterone was partially effective in decreasing 17-beta-estradiol binding, whereas progesterone and 17-alpha-estradiol were ineffective. Study of membrane fractions obtained from estradiol-labeled spermatozoa showed that under saturating conditions 75-84% of the bound steroid was bound to sperm membranes. Nuclear fractions obtained from estradiol-labeled spermatozoa showed only 10% of the total bound radioactivity. When isolated sperm nuclei were incubated in the presence of the purified receptor-17-beta-estradiol complex obtained from the high speed supernatant of human uterus almost no transfer of radioactivity to the nuclei was observed.