cAMP- and cGMP-independent stretch-induced changes in the contraction of rat atrium.

The stretch-induced changes in contraction force, cAMP and cGMP in isolated rat left atrium were studied. Increasing the diastolic intra-atrial pressure from 1 cmH2O to 8 cmH2O caused an immediate (<500 ms) increase in contraction force, the magnitude of which was 2.24+/-0.29 (n=6) times the force elicited by 1 cmH2O. This was followed by a slower, gradual increase of the force, which was maximal 8 min after the stretch (4.33+/-0.31, n=6). These phenomena were not accompanied by changes in the cAMP (n=24) or cGMP (n=24) concentrations within the tissue at any duration of stretch tested (2, 8, 20 and 36 min, n=6 at each time point). Furthermore, it was estimated that if the beta-adrenergic receptor agonist isoprenaline (100 nM) was used to produce an increase of the contraction force of the same magnitude as that induced by stretch, the cAMP concentration was greater (4.20+/-0.29 pmol/mg, n=5, P<0.001) when compared to that produced after 20 min of stretch (2.69+/-0.12 pmol/mg, n=6). Even without significantly changing the cGMP concentration, isoprenaline significantly increased the [cAMP]/[cGMP] ratio (3.4+/-0.36, n=5, P<0.01) compared to stretch (1.95+/-0.14, n=6). This result shows that in the rat atrium stretch does not regulate the production or breakdown of cyclic nucleotides (cAMP or cGMP). Thus it seems very unlikely that the effects of stretch on rat atrium function are caused by cAMP or cGMP.