Hormone inhibition of adenylyl cyclase. Differences in the mechanisms for inhibition by hormones and G protein beta gamma |
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Authors: | J D Hildebrandt R E Kohnken |
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Affiliation: | Worcester Foundation for Experimental Biology, Shrewsbury, Massachusetts 01545. |
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Abstract: | S49 mouse lymphoma cells contain a beta-adrenergic receptor coupled to Gs that stimulates adenylyl cyclase and a somatostatin receptor coupled to Gi that inhibits adenylyl cyclase. Membranes from these cells were used to compare the inhibitory effects of somatostatin and G protein beta gamma complex to determine under what conditions beta gamma is likely to be a mediator of somatostatin action. Somatostatin was equally effective at inhibiting basal adenylyl cyclase activity in the presence of GTP, forskolin-stimulated activity, and hormone-stimulated activity. G protein beta gamma was more effective at inhibiting basal activity than was somatostatin, and these effects were partially additive. In the presence of forskolin, the two inhibitors were equally effective and not additive. In the presence of isoproterenol, beta gamma was much less effective than somatostatin, and the two inhibitors did not have additive or synergistic effects. At very high concentrations beta gamma did inhibit isoproterenol stimulation of adenylyl cyclase, although its effects were not saturating even at 100 micrograms/ml. Under conditions where beta gamma did inhibit hormone stimulation, beta gamma was a mixed inhibitor of isoproterenol stimulation, proportionally decreasing the maximum effect of the hormone and increasing the half-maximally effective concentration. Somatostatin, on the other hand, was a simple noncompetitive inhibitor of isoproterenol stimulation. These results indicate that beta gamma and somatostatin inhibit adenylyl cyclase by different mechanisms, at least in the presence of hormones that stimulate the enzyme. It is proposed that alpha i is the primary mediator of hormone inhibition of adenylyl cyclase when Gs is activated by a hormone, but that beta gamma may have a role as a mediator of inhibition of basal activity. |
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