J Feng1, E R Rosenkranz. 1. The Children's Hospital of Buffalo, and Department of Surgery, The State University of New York at Buffalo, 14222, USA.
Abstract
BACKGROUND: Depressed myocardial performance is an important clinical problem after open-heart surgery. We hypothesized that: (1) pretreating the heart with bradykinin improves postischemic performance, and (2) bradykinin activates protein tyrosine kinase (TK). METHODS: Twenty-seven adult rabbit hearts underwent retrograde perfusion with Krebs-Henseleit buffer (KHB) followed by 50 min of 37 degrees C cardioplegic ischemia with St. Thomas' cardioplegia solution (StTCP). Ten control hearts received no pretreatment. Ten bradykinin-pretreated hearts received a 10-minute infusion of 0.1 microM bradykinin-enriched KHB and cardioplegic arrest with 0.1 microM bradykinin-enriched StTCP. Seven others received 40 microM Genistein (Research Biochemicals, Natick, MA), a selective inhibitor of TK, added to both the 0.1-microM bradykinin-enriched KHB and 0.1-microM bradykinin-enriched StTCP solutions. RESULTS: Bradykinin pretreatment significantly improved postischemic myocardial performance and coronary flow (CF) compared with control (left ventricular developed pressure: 53 +/- 5 vs 27 +/- 4 mm Hg; +dP/dt(max): 1,025 +/- 93 vs 507 +/- 85 mm Hg/s; CF: 31 +/- 3 vs 22 +/- 2 mL/min; p < 0.05). Inhibition of TK with Genistein prevented this improvement in myocardial function, resulting in recovery equivalent to untreated controls. CONCLUSIONS: Bradykinin pretreatment may be an important new strategy for improving myocardial protection during heart surgery. The molecular mechanism of action may be similar to those activated by ischemic preconditioning.
BACKGROUND: Depressed myocardial performance is an important clinical problem after open-heart surgery. We hypothesized that: (1) pretreating the heart with bradykinin improves postischemic performance, and (2) bradykinin activates protein tyrosine kinase (TK). METHODS: Twenty-seven adult rabbit hearts underwent retrograde perfusion with Krebs-Henseleit buffer (KHB) followed by 50 min of 37 degrees C cardioplegic ischemia with St. Thomas' cardioplegia solution (StTCP). Ten control hearts received no pretreatment. Ten bradykinin-pretreated hearts received a 10-minute infusion of 0.1 microM bradykinin-enriched KHB and cardioplegic arrest with 0.1 microM bradykinin-enriched StTCP. Seven others received 40 microM Genistein (Research Biochemicals, Natick, MA), a selective inhibitor of TK, added to both the 0.1-microM bradykinin-enriched KHB and 0.1-microM bradykinin-enriched StTCP solutions. RESULTS: Bradykinin pretreatment significantly improved postischemic myocardial performance and coronary flow (CF) compared with control (left ventricular developed pressure: 53 +/- 5 vs 27 +/- 4 mm Hg; +dP/dt(max): 1,025 +/- 93 vs 507 +/- 85 mm Hg/s; CF: 31 +/- 3 vs 22 +/- 2 mL/min; p < 0.05). Inhibition of TK with Genistein prevented this improvement in myocardial function, resulting in recovery equivalent to untreated controls. CONCLUSIONS: Bradykinin pretreatment may be an important new strategy for improving myocardial protection during heart surgery. The molecular mechanism of action may be similar to those activated by ischemic preconditioning.