Cardioprotection via brain-gut-heart signalling: GLP-1 activates KATP channels in coronary pericytes

Failure to reperfuse the coronary microvasculature (“no-reflow”) affects up to 50% of patients after unblocking a coronary artery that was causing ischaemia and acute myocardial infarction. This “no-reflow” is associated with reduced left ventricular ejection fraction, increased infarct size, and death. We show that the incretin GLP-1 (glucagon-like peptide 1) can be used to protect the heart after ischemia by activating ATP-gated K ⁺ channels on pericytes that constrict coronary capillaries. Coronary capillary dilation can be activated pharmacologically or by vagally-mediated GLP-1 release from the gut evoked by skeletal muscle ischemia, and is abolished by block or genetic deletion of pericyte K _ATP channels. These results define a brain-gut-heart pathway mediating cardioprotection and suggest pharmacological therapies to reduce ischaemia-induced coronary no-reflow and improve post-infarct recovery.