A novel protective effect of erythropoietin in the infarcted heart
Cyrus J. Parsa, Akio Matsumoto, Jihee Kim, Ryan U. Riel, Laura S. Pascal, G. Brant Walton, Richard B. Thompson, Jason A. Petrofski, Brian H. Annex, Jonathan S. Stamler, Walter J. Koch
Cyrus J. Parsa, Akio Matsumoto, Jihee Kim, Ryan U. Riel, Laura S. Pascal, G. Brant Walton, Richard B. Thompson, Jason A. Petrofski, Brian H. Annex, Jonathan S. Stamler, Walter J. Koch
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Article Cardiology

A novel protective effect of erythropoietin in the infarcted heart

Abstract

Erythropoietin (EPO) has been shown to protect neurons from ischemic stroke, but can also increase thrombotic events and mortality rates in patients with ischemic heart disease. We reasoned that benefits of EPO might be offset by increases in hematocrit and evaluated the direct effects of EPO in the ischemic heart. We show that preconditioning with EPO protects H9c2 myoblasts in vitro and cardiomyocytes in vivo against ischemic injury. EPO treatment leads to significantly improved cardiac function following myocardial infarction. This protection is associated with mitigation of myocyte apoptosis, translating into more viable myocardium and less ventricular dysfunction. EPO-mediated myocyte survival appears to involve Akt activation. Importantly, cardioprotective effects of EPO were seen without an increase in hematocrit (eliminating oxygen delivery as an etiologic factor in myocyte survival and function), demonstrating that EPO can directly protect the ischemic and infarcted heart.

Authors

Cyrus J. Parsa, Akio Matsumoto, Jihee Kim, Ryan U. Riel, Laura S. Pascal, G. Brant Walton, Richard B. Thompson, Jason A. Petrofski, Brian H. Annex, Jonathan S. Stamler, Walter J. Koch

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TUNEL staining and quantification of apoptosis in vivo in postischemic r...
TUNEL staining and quantification of apoptosis in vivo in postischemic rabbit hearts. (a) Graphic representation of TUNEL-positive nuclei in MI + saline (control) rabbit hearts (black bar, n = 4) and MI + EPO rabbits (white bar, n = 4). Data shown are the mean ± SEM of the number of TUNEL-positive cells (nuclei) per high-power field analyzed by microscopy. *P < 0.05 versus MI + saline (control) rabbits. (b) Representative TUNEL-stained LV section from an MI + saline (control) rabbit showing several positive-stained apoptotic nuclei. (c) Representative TUNEL-stained LV section from a MI + EPO rabbit with very few apoptotic nuclei.