Abstract

Intracellular and extracellular levels of 3':5'-cyclic GMP and 3':5'-cyclic AMP were studied in synchronized Novikoff rat hepatoma cells. Intracellular levels of cyclic GMP increased spontaneously from 2-fold (without colcemid) to 10-fold (with colcemid), in proportion to the number of cells in mitosis. As cells entered mitosis, cellular cyclic AMP declined simultaneously with the rise in cyclic GMP. These reciprocal changes in cyclic nucleotide levels were reversed as cells passed out of metaphase and through anaphase. Maximum cyclic AMP and minimum cyclic GMP concentrations occurred during G-1. Less marked reciprocal fluctuations in both cyclic nucleotides were also found in S-phase and early G-2, where the ratio of cyclic AMP to cyclic GMP concentrations first fell and then increased. These changes in cyclic nucleotide ratios were closely correlated with major cell-cycle transitions at the boundaries between G-1/S-phase, S-phase/G-2, G-2/prophase, and metaphase/anaphase. Most, but not all, of the extracellular cyclic nucleotides were extruded when cells traversed mitosis. Colcemid or vinblastine completely prevented the appearance of extracellular cyclic AMP but augmented the appearance of extracellular cyclic GMP in parallel with the accumulation of mitotic cells. These results reflected changes in intracellular cyclic nucleotides and indicated that increased intracellular turnover of cyclic GMP and cyclic AMP occurred before and after metaphase, respectively. Elevated cyclic GMP levels during mitosis and S-phase are consistent with potential modulatory roles for this cyclic nucleotide in proliferation.

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