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Cardiovascular Research 2004 63(4):689-699; doi:10.1016/j.cardiores.2004.04.020
© 2004 by European Society of Cardiology
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Copyright © 2004, European Society of Cardiology

Structural and electrical ventricular remodeling in rat acute myocarditis and subsequent heart failure

Yuko Wakisaka*, Shinichi Niwano, Hiroe Niwano, Junko Saito, Tohru Yoshida, Shoji Hirasawa, Hideaki Kawada and Tohru Izumi

Department of Internal Medicine, Kitasato University School of Medicine, 1-15-1, Kitasato, Sagamihara, 228-8111, Japan

* Corresponding author. Tel.: +81-42-778-8111; fax: +81-42-778-8441. Email address: wakisaka{at}med.kitasato-u.ac.jp

Objective: We reported that experimental autoimmune myocarditis (EAM) rats showed dramatic changes in ventricular action potential and enhanced arrhythmogenicity in the acute phase, but mechanisms for this are still unclear. To investigate the mechanisms of cardiac remodeling in acute myocarditis and subsequent heart failure, physiological and molecular changes were evaluated along the time course of EAM. Methods: Six-week-old Lewis rats were immunized with porcine cardiac myosin. On days 14, 21, 35 and 60 after immunization, histology, hemodynamics and electrophysiological parameters (i.e., effective refractory period (ERP), monophasic action potential duration (MAPD) and PVC inducibility) were evaluated and compared with control rats. After these studies, the expression levels of Kv+ and L-Ca2+ channels, ion transporters and BNP expressions in the left ventricle were examined by quantitative real time RT-PCR and Western blot analysis. Results: EAM rats showed acute myocarditis with massive infiltration of the mononuclear cells on days 14 and 21. Subsequently, a chronic dilated cardiomyopathy (DCM)-like structural change was observed on day 60. Hemodynamic parameters were worse in EAM than controls. ERP and MAPD were longer in EAM than controls, with a peak on day 21, which was parallel to PVC inducibility. mRNA levels of Kv4.2, Kv1.5, KChIP2, frequenin and SERCA2a, and the protein levels of Kv4.2 and Kv1.5, were reduced, especially in the acute phase. Conclusions: The initial reduction of Ito-related molecules, such as the expression levels of Kv4.2, 1.5, frequenin and KChIP2, and the prolongation of MAPD are considered to be a key mechanism of ventricular remodeling and cause the characteristic clinical findings in EAM in the acute inflammatory phase and chronic DCM phase.

KEYWORDS Remodelling; Ventricular arrhythmias; Myocarditis; Ion channels; Cardiomyopathy

Time for primary review 15 days


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