Insulin-like Growth Factor-1 but Not Growth Hormone Augments Mammalian Myocardial Contractility by Sensitizing the Myofilament to Ca 2+ Through a Wortmannin-Sensitive Pathway

Abstract

—A growing body of evidence has been accumulated recently suggesting that growth hormone (GH) and insulin-like growth factor-1 (IGF-1) affect cardiac function, but their mechanism(s) of action is unclear. In the present study, GH and IGF-1 were administered to isolated isovolumic aequorin-loaded rat whole hearts and ferret papillary muscles. Although GH had no effect on the indices of cardiac function, IGF-1 increased isovolumic developed pressure by 24% above baseline. The aequorin transients were abbreviated and demonstrated decreased amplitude. The positive inotropic effects of IGF-1 were not associated with increased intracellular Ca ²⁺ availability to the contractile machinery but to a significant increase of myofilament Ca ²⁺ sensitivity. Accordingly, the Ca ²⁺ -force relationship obtained under steady-state conditions in tetanized muscle was shifted significantly to the left (EC ₅₀ , 0.44±0.02 versus 0.52±0.03 μmol/L with and without IGF-1 in the perfusate, respectively; P 2+ -activated tetanic pressure was increased significantly by 12% (211±3 versus 235±2 mm Hg in controls and IGF-1–treated hearts, respectively; P i or high-energy phosphate content, as assessed by ³¹ P nuclear magnetic resonance spectroscopy, and were blocked by the phosphatidylinositol 3-kinase inhibitor wortmannin. Concomitant administration of IGF binding protein-3 blocked IGF-1–positive inotropic action in ferret papillary muscles. In conclusion, IGF-1 is an endogenous peptide that through a wortmannin-sensitive pathway displays distinct positive inotropic properties by sensitizing the myofilaments to Ca ²⁺ without increasing myocyte [Ca ²⁺ ] _i .