Abstract
In applying recently developed methods for measuring adenyl and guanyl cyclase activities, we found that some modifications produced much better cyclic nucleotide recovery, lower assay backgrounds, and greater reliability than previously reported. The reliability and specificity of the assay methods were confirmed by substrate and product analysis. Kinetic analysis of rat liver guanyl and adenyl cyclase was subsequently performed to investigate regulatory properties of both enzymes. The Michaelis-Menton constant of guanyl cyclase activity of a 30,000 g supernatant fraction of rat liver for guanosine 5′-triphosphate (GTP) was 0.04 m m. This enzyme was competitively inhibited by adenosine 5′-triphosphate (ATP) ( K i = 0.011 mM). Guanyl cyclase was activated in vitro by secretin but unaffected by carbamylcholine, hist-amine, methoxamirie, serotonin, glucagon, and pancreozymin. Liver homogenate adenyl cyclase had a Michaelis-Menten constant for ATP of 0.2 mm. This enzyme was activated by secretin, pancreozymin, glucagon, sodium fluoride, and isoproterenol. GTP (0.005 m m) enhanced the activation by both isoproterenol and glucagon. Methoxamine had no effect on adenyl cyclase activity in the presence or absence of GTP. These results suggest that both guanyl cyclase and adenyl cyclase may be mediators of hormone action in the liver.
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