Conclusions
HO-1 is an effective mechanism for reducing acute myocardial stress such as excess beta-adrenergic activity. However, in our age and pressure overload models, HO-1 showed detrimental rather than therapeutic effects in the development of heart failure.
Methods
Mice with alpha-myosin heavy chain restricted expression of HO-1 were aged for 1 year. In addition, mice underwent transverse aortic constriction (TAC) or were infused with isoproterenol (ISO) to induce heart failure.
Results
HO-1 transgenic mice developed spontaneous heart failure after 1 year compared to their wild-type littermates and showed accelerated cardiac dysfunction 2 weeks following TAC. Wild-type mice undergoing pressure overload demonstrated extensive interstitial fibrosis that was prevented by HO-1 overexpression, yet HO-1 transgenic mice had reduced capillary density, contractile reserve, and elevated end-diastolic pressure. However, HO-1 transgenic mice had significantly attenuated ISO-induced cardiac dysfunction, interstitial fibrosis, and hypertrophy compared to control. Isolated cardiomyocytes from HO-1 transgenic mice treated with ISO did not show evidence of hypercontracture/necrosis and had reduced NADH oxidase activity. Conclusions: HO-1 is an effective mechanism for reducing acute myocardial stress such as excess beta-adrenergic activity. However, in our age and pressure overload models, HO-1 showed detrimental rather than therapeutic effects in the development of heart failure.