Effects of purine cyclic nucleotides on the growth of neonatal rat hepatocytes in primary tissue culture

Abstract

Abstract cGMP and db-cGMP administered for 20–24 h to neonatal rat hepatocytes in primary culture stimulated their DNA synthesis and proliferation only at concentrations higher than the physiological one, whereas at concentrations equal to or lower than the physiological concentration they were ineffective or inhibitory for both activities. Induction of DNA synthesis to be effected by cGMP required 15 h of treatment, preceded, however, by inhibition of the same process between the 6th and the 14th hour of exposure. In contrast, cAMP and db-cAMP stimulated the flow of cultivated hepatocytes into the S and M stages of their mitotic cycle when administered at very wide concentration range, including the physiological for cAMP and the sub-physiological for db-cAMP. cAMP was effective after 12–14 h of treatment. Equimolar mixtures of cGMP with cAMP and of db-cGMP with db-cAMP also stimulated the proliferative activity of primary hepatocytes, but only at very low doses, which induced a first peak of DNA synthesis between the 2nd and the 6th hour of treatment and a second peak at about the 18th hour. These actions of the cyclic compounds, employed singly or in equimolar combination, were shown to be specific, since they could not be reproduced by their main metabolites. The present results strengthen the view that cAMP plays a pre-eminent role in the positive regulation of hepatocyte proliferation. Contrary to the postulate of the dualistic doctrine, cGMP by itself is not proliferogenic in the physiological range; in fact, cGMP acts as an ancillary, possibly dispensable, compound whose physiological role may be to help, in cooperation with cAMP, liver cells to cross the G1/S boundary of their growth-division cycle.