Insulin-Like Growth Factor I Improves Cardiovascular Function and Suppresses Apoptosis of Cardiomyocytes in Dilated Cardiomyopathy

doi:10.1210/en.140.10.4831

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Insulin-Like Growth Factor I Improves Cardiovascular Function and Suppresses Apoptosis of Cardiomyocytes in Dilated Cardiomyopathy¹

Wen-Lieng Lee, Jaw-Wen Chen, Chih-Tai Ting, Toshiyuki Ishiwata, Shing-Jong Lin, Murray Korc and Ping H. Wang

Department of Medicine, Taichung and Taipei Veterans General Hospital, National Yang-Ming University (W.-L.L., J.-W.C., C.-T.T., S.-J.L.), Taipei, Taiwan; and the Departments of Medicine and Biological Chemistry, Division of Endocrinology, Diabetes, and Metabolism, University of California (T.I., M.K., P.H.W.), Irvine, California 92697

Address all correspondence and requests for reprints to: Ping H. Wang, M.D., Department of Medicine, Medical Science Building I, C240, University of California, Irvine, California 92697. E-mail: phwang{at}uci.edu

To investigate how insulin-like growth factor I (IGF-I) modulates cardiovascularfunction and myocardial apoptosis in heart failure, the therapeuticeffects of IGF-I were determined in a canine model of dilatedcardiomyopathy. The animals were paced at 220 beats/min, and theleft ventricular (LV) chamber became dilated after 2 weeks.A subset of paced dogs was treated with sc injections of IGF-Ifrom week 3 to week 4. After 4 weeks of pacing, untreated paceddogs developed significant ventricular dysfunction. IGF-I-treatedpaced dogs showed better cardiac output, stroke volume, LV end-systolicpressure, and LV end-diastolic pressure. Moreover, pulmonarywedge pressure and systemic vascular resistance were increasedin the untreated group and decreased in the IGF-I-treated group.IGF-I treatment was associated with less thinning of the ventricularwall. Compared with the controls, untreated paced dogs showedincreased apoptosis of cardiac muscle cells, which was partiallysuppressed by IGF-I treatment. The myocardial apoptotic indexwas negatively related to the thickness of the ventricular wall andto cardiac output, suggesting that ventricular remodeling/dysfunctioninvolves the occurrence of myocardial apoptosis. Due to theclose resemblance between this experimental model of dilated cardiomyopathyand human heart failure, the results of this study provide evidencethat IGF-I may be a potential therapeutic agent for the failinghuman heart.

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