Background: We investigated the ability of mitochondrial adenosine triphosphate-dependent potassium-channel activation to augment the protection of Na(+)-H(+) exchanger inhibition in isolated working rat hearts after 6 hours of hypothermic storage in an extracellular-based cardioplegic solution.
Methods: We treated hearts with the potassium-channel openers diazoxide (100 micromol/liter) or BMS-180448 (10 micromol/liter) or with the Na(+)-H(+) exchanger inhibitor cariporide (10 micromol/liter). Cariporide also was administered in combination with either diazoxide or BMS-180448 in 2 other treatment groups. All hearts were arrested and stored at 2 to 3 degrees C. After storage, we reperfused hearts for 10 minutes before performing work for a further 15 minutes, and then we measured and assessed cardiac function using a 2-way analysis of variance model.
Results: Neither diazoxide nor BMS-180448 significantly improved recovery of cardiac output. Cariporide therapy significantly improved cardiac output compared with control. However, we obtained the greatest recovery of cardiac output when we combined cariporide with either diazoxide or BMS-180448.
Conclusions: Cariporide is more cardioprotective than the potassium-channel openers diazoxide and BMS-180448 after prolonged hypothermic storage. Co-administration of diazoxide or BMS-180448 with cariporide results in additive cardioprotection, with significantly improved cardiac function when compared with either treatment given alone. Such a combination could be used to improve the functional recovery of hearts stored for cardiac transplantation.