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Cardioprotection induced by cardiac-specific overexpression of fibroblast growth factor-2 is mediated by the MAPK cascade

Departments of ¹Pharmacology and Cell Biophysics and ²Molecular Genetics, Biochemistry, and Microbiology, University of Cincinnati College of Medicine, Cincinnati, Ohio

Submitted 21 April 2005 ; accepted in final form 7 July 2005

Our laboratory showed previously that cardiac-specific overexpression of FGF-2 [FGF-2 transgenic (Tg)] results in increased recovery of contractile function and decreased infarct size after ischemia-reperfusion injury. MAPK signaling is downstream of FGF-2 and has been implicated in other models of cardioprotection. Treatment of FGF-2 Tg and wild-type hearts with U-0126, a MEK-ERK pathway inhibitor, significantly reduced recovery of contractile function after global low-flow ischemia-reperfusion injury in FGF-2 Tg (86 ± 2% vehicle vs. 66 ± 4% U-0126; P < 0.05) but not wild-type (61 ± 7% vehicle vs. 67 ± 7% U-0126) hearts. Similarly, MEK-ERK inhibition significantly increased myocardial infarct size in FGF-2 Tg (12 ± 3% vehicle vs. 31 ± 2% U-0126; P < 0.05) but not wild-type (30 ± 4% vehicle vs. 36 ± 7% U-0126) hearts. In contrast, treatment of FGF-2 Tg and wild-type hearts with SB-203580, a p38 inhibitor, did not abrogate FGF-2-induced cardioprotection from postischemic contractile dysfunction. Instead, inhibition of p38 resulted in decreased infarct size in wild-type hearts (30 ± 4% vehicle vs. 11 ± 2% SB-203580; P < 0.05) but did not alter infarct size in FGF-2 Tg hearts (12 ± 3% vehicle vs. 14 ± 1% SB-203580). Western blot analysis of ERK and p38 activation revealed signaling alterations in FGF-2 Tg and wild-type hearts during early ischemia or reperfusion injury. In addition, MEK-independent ERK inhibition by p38 was observed during early ischemic injury. Together these data suggest that activation of ERK and inhibition of p38 by FGF-2 is cardioprotective during ischemia-reperfusion injury.

extracellular signal-regulated kinase; p38; ischemia-reperfusion injury; myocardial infarction; signaling cross talk; mitogen-activated protein kinase

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