Preconditioning is an endogenous mechanism of cardioprotection that develops secondary to a brief ischemia and a dramatic reduction in infarct size is observed when the myocardium undergoes a subsequent and long period of ischemia after the induction of preconditioning. Since its initial discovery, it appears that the kinetic of preconditioning is biphasic. Early preconditioning is effective within 1 to 3 hours after the initial brief ischemia. A second windows of preconditioning has been also described within the following 24-48 h. Although late preconditioning against myocardial stunning is well established, its protection against infarction still remains debated. Whereas nitric oxide is not involved in the early preconditioning, its role during the late phase of preconditioning has been recently well described. Indeed, nitric oxide triggers the delayed cardioprotection through the formation of oxiradicals. This leads to the translocation of protein kinase C. Secondary, the activation of the tyrosine kinases pathway and the transcriptional factor NF kappa B induces iNOS. Therefore, nitric oxide also plays a key role in the late preconditioning phenomenon as a mediator of this cardioprotection, although its final effector still remains unknown. The knowledge of the mechanisms responsible for preconditioning is necessary in order to develop new pharmacological concepts in order to protect the heart against ischemia. It is interesting to underline that nitric oxide donors are able to mimic late preconditioning.