Early sequence of cardiac adaptations and growth factor formation in pressure- and volume-overload hypertrophy

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Early sequence of cardiac adaptations and growth factor formation in pressure- and volume-overload hypertrophy

Pietro Amedeo Modesti¹, Simone Vanni¹, Iacopo Bertolozzi¹, Ilaria Cecioni¹, Gianluca Polidori¹, Rita Paniccia¹, Brunella Bandinelli¹, Avio Perna², Piero Liguori², Maria Boddi¹, Giorgio Galanti¹, and Gian Gastone Neri Serneri¹

¹ Clinica Medica Generale e Cardiologia and ² Department of Experimental Surgery, University of Florence, 50134 Florence, Italy

To investigate the time sequence of cardiac growth factor formation, echocardiographic and hemodynamic measurements wereperformed at scheduled times, and mRNAs for angiotensinogen, prepro-endothelin-1(ppET-1), and insulin-like growth factor I (IGF-I) were quantifiedwith RT-PCR and localized with in situ hybridization in pigs (fluothaneanesthesia) by use of pressure or volume overload (aortic bandingand aorta-cava fistula, respectively). Relative peptide formationwas also measured by radioimmunoassay. In pressure overload, angiotensinogenand ppET-1 mRNA overexpression on myocytes (13 times vs. shamat 3 h and 112 times at 6 h, respectively) was followed by recovery(12 h) of initially decreased (0.5-6 h) myocardial contractility.In volume overload, contractility was not decreased, the angiotensinogengene was slightly upregulated at 6 h (6.7 times), and ppET-1 wasnot overexpressed. IGF-I mRNA was overexpressed on myocytes (at24 h) in both volume and pressure overload (14 times and 37 times,respectively). In the latter setting, a second ppET-1 overexpressionwas detectable on myocytes at 7 days. In conclusion, acute cardiacadaptation responses involve different growth factor activationover time in pressure versus volume overload; growth factors initiallysupport myocardial contractility and thereafter induce myocardialhypertrophy.

endothelin-1; angiotensinogen; insulin-like growth factor I; myocardial contractility; acute overloading; swine

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