Effects of IGF-I on cardiac growth and expression of mRNAs coding for cardiac proteins after induction of heart hypertrophy in the rat

Department of Medicine, University Hospital, Zurich, Switzerland.

Adult rat cardiomyocytes in long-term culture reexpress several fetal cardiac proteins which also reappear during overload heart hypertrophy in vivo. IGF-I decreases reexpression of some of these proteins and stimulates myofibrillogenesis. IGF-I might therefore contribute to enhancing readaptation of the heart to overload. In order to test this hypothesis, hypertension was induced in male Wistar Kyoto rats by constriction of the left renal artery, and an infusion of 500 microg/day of recombinant human IGF-I (rhIGF-I) or vehicle was started after the operation via intraabdominally implanted osmotic minipumps. In the vehicle-treated hypertensive animals body weight gain was reduced after 3, 7 and 14 days, whereas rhIGF-I-treated hypertensive animals continued to gain weight like sham-operated animals. Left ventricular weight and the left, but not the right ventricle/body weight ratio increased more in rhIGF-I- than in vehicle-infused rats. Left ventricular IGF-I mRNA levels remained unchanged after renal clipping in both vehicle- and rhIGF-I-treated rats. However, beta-myosin heavy chain (MHC) mRNA in the left ventricle was 6- to 10-fold increased in clipped controls during the whole postoperative period, and rhIGF-I reduced this increase by more than 50% on days 7 and 14. On the first postoperative day, rhIGF-I prevented the decrease (50%) of alpha-MHC mRNA and the increase (2.5-fold of atrial natriuretic factor mRNA in the left ventricle. Renal clipping did not alter cardiac alpha-actin, but enhanced skeletal alpha-actin mRNA expression in the left ventricle up to 2.5-fold. However, both mRNAs were unaffected by rhIGF-I treatment. Restoration of body weight gain and stimulation of left ventricular cardiac weight by rhIGF-I as well as partial reversion of hypertension-induced changes in cardiac protein expression may reflect beneficial effects contributing to enhance readaptation of the heart to overload.

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