Cyclic AMP inhibits increased collagen production by cyclically stretched smooth muscle cells.

Rabbit arterial smooth muscle cells, grown on elastin membranes which were cyclically elongated and relaxed, responded by increasing their rates of synthesis of protein and, in particular, of collagen, compared to stationary controls. Raising intracellular cyclic AMP (cAMP) levels by adding theophylline or dibutyryl cAMP to the culture medium prevented the synthetic response to cyclic stretching, but did not alter the rates of protein or collagen synthesis by stationary controls. Both synthesis and degradation of collagen by cyclically stretched cells increased in parallel such that the proportion of synthesized collagen that was degraded was similar to that found in the stationary cultures. Collagen degradation was not affected by theophylline administration to stationary cell cultures but the drug increased degradation of collagen by cyclically stretched cells. We conclude that the net production of protein, and in particular of a structural protein, collagen, by arterial smooth muscle cells subjected to the mechanical force of stretching was inhibited when intracellular levels of cAMP were raised. The results suggest that cAMP may play a role in the modulation of structural protein content of artery walls in response to changes in tensile stress.