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Journal of Andrology, Vol 12, Issue 2 132-139, Copyright © 1991 by The American Society of Andrology
JOURNAL ARTICLE |
E. S. Browne and V. K. Bhalla
Department of Physiology, Medical College of Georgia, Augusta, Georgia 30912.
The dose-response relationship between luteinizing hormone/human chorionic gonadotropin (LH/hCG)-stimulated biological response and 125I-labeled hCG binding was studied in purified Leydig cells from adult rat testes. The concentration of hCG needed for one-half maximal stimulation of cyclic adenosine monophosphate (cAMP) and testosterone production (ED50) was 2.16 x 10(-11)mol/L and 5.6 x 10(-13)mol/L, respectively. This suggests that extremely low levels of hormone in the range of 10(-13)mol/L hCG are sufficient to generate enough cAMP (5.66 pmol; 2.83 x 10(-9)mol/L) for steroidogenesis, thereby preserving the catalytic potential of the receptor-cyclase system. Most of the cAMP formed at 10(-13)mol/L hCG was released into the medium, and the intracellular cAMP was much less and barely detectable (0.98 x 10(-9)mol/L; 1.96 pmol/2 x 10(6) cells). The specific binding of 125I-labeled hCG to purified Leydig cells at a correspondingly higher hCG concentration (3 x 10(-10)mol/L) was extremely low and did not display a dose-dependent increase in binding. Assuming the specific binding to represent 100% occupancy of high affinity receptors (14.2 fmol/2 x 10(6) cells per 2 ml), each mole of bound hCG generated 15,423 mol cAMP and 12,817 mol testosterone. The results show that the hormone interacts with cellular receptors as a catalyst to generate the biological response. Moreover, the true affinity of hormone-receptor interaction responsible for the physiologic action is possibly much greater than previously reported for this system. This information should prove useful for reconstitution studies using the hormone receptor/G-protein/adenylate cyclase system in vitro in soluble form.
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