Abstract
Although caveolin-1 is not expressed in cardiomyocytes, this protein is assumed to act as a key regulator in the development of cardiomyopathy. In view of recent discordant findings we aimed to elucidate the cardiac phenotype of independently generated caveolin-1 knockout mice (cav-1 −/−) and to unveil causative mechanisms. Invasive hemodynamic measurements of cav-1 −/− show a severely reduced systolic and diastolic heart function. Additionally, genetic ablation of caveolin-1 leads to a striking biventricular hypertrophy and to a sustained eNOS-hyperactivation yielding increased systemic NO levels. Furthermore, a diminished ATP content and reduced levels of cyclic AMP in hearts of knockout animals were measured. Taken together, these results indicate that genetic disruption of caveolin-1 is sufficient to induce a severe biventricular hypertrophy with signs of systolic and diastolic heart failure. Collectively, our findings suggest a causative role of a sustained nitrosative stress in the development of the pronounced cardiac impairment.
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