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JBC, Vol. 250, Issue 18, 7245-7250, Sep, 1975

Evidence for specific binding sites for guanine nucleotides in adipocyte and hepatocyte plasma membranes. A difference in fate of GTP and guanosine 5'-(beta, gamma-imino) triphosphate

Y. Salomon and M. Rodbell

Binding and degradation of GTP and guanosine 5'-(beta, gamma-imino)triphosphate (Gpp(NH)p by plasma membranes from rat liver and fat cells were investigated. Gpp(NH)p is hydrolyzed predominantly by nucleotide pyrophosphohydrolases in the membranes, whereas GTP is hydrolyzed primarily by nucleotide phosphohydrolases. These enzymes are not specific for the guanine nucleotides since co-addition of the analogous adenine nucleotides spares their hydrolysis. Both Gpp(NH)p and GTP are taken up by the membranes at sites which, to the extent that high concentrations of the corresponding adenine nucleotides fail to inhibit uptake, appear to be specific for guanine nucleotides. Gpp(NH)p taken up at these sites remains essentially intact irrespective of the degree of hydrolysis of unbound Gpp(NH)p by nucleotide pyrophosphohydrolases, indicating that the binding siteis incapable of degrading Gpp(NH)p. GTP and GDP inhibit competitively the binding of Gpp(NH)p; the binding constants for the three nucleotides are similar (0.1 to 0.4 muM) and are in the same range required for their effects on adenylate cyclase activity. Binding of the nucleotides is inhibited by sulfhydryl agents, suggesting that a sulfhydryl group is involved in the binding process. In contrast to binding of Gpp(NH)p, uptake of GTP is accompanied by substantial hydrolysis, primarily to GDP, under incubation conditions (high [ATP] plus ATP regenerating system) in which [GTP] in the medium remains essentially constant. GDP bound to the membranes is progressively hydrolyzed to 5'-GMP. Thus, GTP and Gpp(NH)p, although binding to the same specific sites, are differentially susceptible to hydrolysis at their terminal phosphates when bound to these sites. These findings are discussed in terms of the markedly different potencies of GTP and Gpp(NH)p as activators of adenylate cyclase systems.
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