AN ESSENTIAL ROLE OF NF-KAPPA-B IN TYROSINE KINASE SIGNALING OF P38 MAP KINASE REGULATION OF MYOCARDIAL ADAPTATION TO ISCHEMIA

We hale recently demonstrated that myocardial adaptation to ischemia t riggers a tyrosine kinase regulated signaling pathway leading to the t ranslocation and activation of p38 MAP kinase and MAPKAP kinase 2, Sin ce oxidative stress is developed during ischemic adaptation and since free radicals have recently been shown to function as an intracellular signaling agent leading to the activation of nuclear transcription fa ctor, NF kappa B, we examined whether NF kappa B was involved in the i schemic adaptation process. Isolated perfused rat hearts were adapted to ischemic stress by repeated ischemia and reperfusion, Hearts were p retreated with genistein to block tyrosine kinase while SE 203580 was used to inhibit p38 MAP kinases, Ischemic adaptation was associated wi th the nuclear translocation and activation of NF kappa B which was si gnificantly blocked by both genistein and SE 203580, The ischemically adapted hearts were more resistant to ischemic reperfusion injury as e videnced by better function recovery and less tissue injury during pos tischemic reperfusion. Ischemic adaptation developed oxidative stress which was reflected by increased malonaldehyde formation. A synthetic peptide containing a cell membrane-permeable motif and nuclear sequenc e, SN 50, which blocked nuclear translocation of NF kappa B during isc hemic adaptation, significantlp inhibited the beneficial effects of ad aptation on functional recovery and tissue injury. In concert, SN 50 r educed the oxidative stress developed in the adapted myocardium. These results demonstrate that p38 MAP kinase might be upstream of NF kappa B which plays a role in ischemic preconditioning of heart. (C) 1998 F ederation of European Biochemical Societies.