Cyclic AMP, early response gene expression, and DNA synthesis in rat smooth muscle cells.

Smooth muscle cells (SMC) isolated from neonatal and adult rats differ markedly in their growth characteristics. The growth of neonatal cells is mainly due to autocrine stimulation, whereas the growth of adult SMC is dependent upon addition of exogenous mitogens. Increasing intracellular cyclic AMP (cAMP) levels effectively inhibits DNA synthesis in adult cells, but is essentially without effect on the rate of DNA synthesis in neonatal cells. In the present study we investigated whether this difference in cAMP sensitivity is due to an effect of cAMP on early response genes. The results show that increasing intracellular levels of cAMP by exposing the cells to the synthetic adenosine analogue N-ethyl-carboxamido adenosine (NECA) results in an accumulation of c-jun and c-fos mRNA in both cell types. NECA also lowered c-myc mRNA levels in neonatal cells, whereas it marginally increased the presence of c-myc mRNA in adult cells. Exposure to NECA also resulted in a limited increase in alpha-actin mRNA levels. NECA did not inhibit DNA synthesis or growth of adult SMC actively proliferating in the presence of 10% serum, suggesting that cAMP interferes with processes taking place during the early G1 phase or in the entry of growth-arrested cells into the G1 phase of the SMC cell cycle. It is concluded that the growth-inhibitory effect of NECA is unlikely to be due to actions of cAMP on early response genes. However, it cannot be completely excluded that an increased synthesis of jun/fos transcription factors may induce the transcription of other, growth-suppressing genes in the cells.