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J Biol Chem, Vol. 273, Issue 13, 7228-7234, March 27, 1998

Stimulation of "Stress-regulated" Mitogen-activated Protein Kinases (Stress-activated Protein Kinases/c-Jun N-terminal Kinases and p38-Mitogen-activated Protein Kinases) in Perfused Rat Hearts by Oxidative and Other Stresses

Angela Clerk^§, Stephen J. Fuller, Ashour Michael, and Peter H. Sugden

From the  National Heart and Lung Institute Division, Imperial College School of Medicine, Royal Brompton Campus, London SW3 6LY, United Kingdom and the ^§ Division of Biomedical Sciences, Imperial College School of Medicine, Charing Cross Campus, London W6 8RF, United Kingdom

"Stress-regulated" mitogen-activated protein kinases (SR-MAPKs) comprise the stress-activated protein kinases (SAPKs)/c-Jun N-terminal kinases (JNKs) and the p38-MAPKs. In the perfused heart, ischemia/reperfusion activates SR-MAPKs. Although the agent(s) directly responsible is unclear, reactive oxygen species are generated during ischemia/reperfusion. We have assessed the ability of oxidative stress (as exemplified by H₂O₂) to activate SR-MAPKs in the perfused heart and compared it with the effect of ischemia/reperfusion. H₂O₂ activated both SAPKs/JNKs and p38-MAPK. Maximal activation by H₂O₂ in both cases was observed at 0.5 mM. Whereas activation of p38-MAPK by H₂O₂ was comparable to that of ischemia and ischemia/reperfusion, activation of the SAPKs/JNKs was less than that of ischemia/reperfusion. As with ischemia/reperfusion, there was minimal activation of the ERK MAPK subfamily by H₂O₂. MAPK-activated protein kinase 2 (MAPKAPK2), a downstream substrate of p38-MAPKs, was activated by H₂O₂ to a similar extent as with ischemia or ischemia/reperfusion. In all instances, activation of MAPKAPK2 in perfused hearts was inhibited by SB203580, an inhibitor of p38-MAPKs. Perfusion of hearts at high aortic pressure (20 kilopascals) also activated the SR-MAPKs and MAPKAPK2. Free radical trapping agents (dimethyl sulfoxide and N-t-butyl--phenyl nitrone) inhibited the activation of SR-MAPKs and MAPKAPK2 by ischemia/reperfusion. These data are consistent with a role for reactive oxygen species in the activation of SR-MAPKs during ischemia/reperfusion.

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