Abstract

Abstract The ability of a large number of catecholamine analogs to stimulate DNA synthesis in the mouse parotid gland in vivo was compared to their effect on the levels of adenosine 3′,5′-monophosphate (cyclic AMP) and guanosine 3′,5′-monophosphate (cyclic GMP) in this tissue. In the normal parotid gland the level of cyclic GMP is very low (10−9 moles/kg wet wt), being only 1/800th of the cyclic AMP concentration. Isoproterenol increases the levels of cyclic AMP and cyclic GMP 30- and 3-fold, respectively. The increase in cyclic AMP is biphasic with an apparent early maximum at 2.5 min and a main peak at 15 min while the increase in cyclic GMP is monophasic with maximum levels at 15 min. Other analogs showed a similar effect on cyclic AMP levels but the time course of increases in cyclic GMP was very variable with peak stimulation as early as 1 min in some cases. The ability of analogs to cause the accumulation of cyclic AMP was correlated with their capacity to activate adenylate cyclase in parotid extracts and to act as β-adrenergic agonists in other systems. All compounds which raised cyclic AMP levels stimulated DNA synthesis but a number of other analogs also stimulated DNA synthesis. The effects of these analogs have been correlated with their ability to raise the intracellular concentration of cyclic GMP. Cholinergic agents also cause the accumulation of cyclic GMP but the effect of the analogs does not appear to be mediated through the cholinergic system as atropine does not block their effects and cholinergic agonists do not stimulate DNA synthesis. It is suggested that cholinergic agonists and the catecholamine analogs act primarily on the duct and acinar cells, respectively. Significant with inhibitors of the rises in cyclic nucleotide levels suggest that in isoproterenol stimulation it is the rise in cyclic GMP which is the more significant event in relation to stimulation of DNA synthesis.

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