Previous studies have indicated that PKC-epsilon is a central regulator of protective signal transduction in the heart. However, the signaling modules through which PKC-epsilon exerts its protective effects have only begun to be understood. We have identified a novel participant in the PKC-epsilon signaling system in cardioprotection, the nonreceptor tyrosine kinase Bmx. Functional proteomic analyses of PKC-epsilon signaling complexes identified Bmx as a member of these complexes. Subsequent studies in rabbits have indicated that Bmx is activated by nitric oxide (NO) in the heart, concomitant with the late phase of NO donor-induced protection, and provide the first analysis of Bmx expression/distribution in the setting of cardioprotection. In addition, increased expression of Bmx induced by NO donors was blocked by the same mechanism that blocked cardioprotection: inhibition of PKC with chelerythrine. These findings indicate that a novel type of PKC-tyrosine kinase module (involving Bmx) is formed in the heart and may be involved in pharmacological cardioprotection by NO donors.