Abstract

The effect of reaction volume upon the binding of gonadotropins by particulate receptors was studied. Two experimental approaches were used: one involved increasing the reaction volume of the binding assay (i.e. diluting the hormone and receptor concentrations and will be referred to as buffer coincubation studies) and the other involved incubating the testicular homogenate in various buffer volumes prior to the binding assay (buffer preincubation stidies). The results showed that the number of hormone binding sites inferred from Scatchard analysis was inversely related to the reaction volume in the coincubation as well as in the preincubation studies. Time-dependent dissociation of receptors from the intact testis was demonstrated by perifusion studies and the loss of receptors from intact testis correlated with the appearance of soluble factors (Bhalla, V.K., Haskell, J., Grier, H. and Mahesh, V.B. (1976) J. Biol. Chem. 251, 4947--4957) in the eluate obtained. The results obtained along with those presented in the preceding manuscript (Chen, C.J.H., Lindeman, J.G., Trowbridge, C.G. and Bhalla, V.K. (1979) Biochim. Biophys. Acta 284, 407--435) question the validity of the rapid equilibrium model which assumes reversible hormone occupancy of a fixed number of receptor sites. An alternate binding model is proposed herein and its implications are discussed.

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