Aims: To examine endogenous acetylcholine (ACh) release in the rabbit left ventricle during acute ischemia, ischemic preconditioning and electrical vagal stimulation.
Main methods: We measured myocardial interstitial ACh levels in the rabbit left ventricle using a cardiac microdialysis technique. In Protocol 1 (n=6), the left circumflex coronary artery (LCX) was occluded for 30min and reperfused for 30min. In Protocol 2 (n=5), the LCX was temporarily occluded for 5min. Ten minutes later, the LCX was occluded for 30min and reperfused for 30min. In Protocol 3 (n=5), bilateral efferent vagal nerves were stimulated at 20Hz and 40Hz (10V, 1-ms pulse duration).
Key findings: In Protocol 1, a 30-min coronary occlusion increased the ACh level from 0.39+/-0.15 to 7.0+/-2.2nM (mean+/-SE, P<0.01). In Protocol 2, a 5-min coronary occlusion increased the ACh level from 0.33+/-0.07 to 0.75+/-0.11nM (P<0.05). The ACh level returned to 0.48+/-0.10nM during the interval. After that, a 30-min coronary occlusion increased the ACh level to 2.4+/-0.49nM (P<0.01). In Protocol 3, vagal stimulation at 20Hz and 40Hz increased the ACh level from 0.29+/-0.06 to 1.23+/-0.48 (P<0.05) and 2.44+/-1.13nM (P<0.01), respectively.
Significance: Acute ischemia significantly increased the ACh levels in the rabbit left ventricle, which appeared to exceed the vagal stimulation-induced ACh release. Brief ischemia as short as 5min can also increase the ACh level, suggesting that endogenous ACh release can be a trigger for ischemic preconditioning.