Abstract
AimsRecombinant Neuregulin (NRG)-1β has multiple beneficial effects on cardiac myocytes in culture, and has potential as a clinical therapy for heart failure (HF). A number of factors may influence the effect of NRG-1β on cardiac function via ErbB receptor coupling and expression. We examined the effect of the NRG-1β isoform, glial growth factor 2 (GGF2), in rats with myocardial infarction (MI) and determined the impact of high-fat diet as well as chronicity of disease on GGF2 induced improvement in left ventricular systolic function. Potential mechanisms for GGF2 effects on the remote myocardium were explored using microarray and proteomic analysis.Methods and ResultsRats with MI were randomized to receive vehicle, 0.625 mg/kg, or 3.25 mg/kg GGF2 in the presence and absence of high-fat feeding beginning at day 7 post-MI and continuing for 4 weeks. Residual left ventricular (LV) function was improved in both of the GGF2 treatment groups compared with the vehicle treated MI group at 4 weeks of treatment as assessed by echocardiography. High-fat diet did not prevent the effects of high dose GGF2. In experiments where treatment was delayed until 8 weeks after MI, high but not low dose GGF2 treatment was associated with improved systolic function. mRNA and protein expression analysis of remote left ventricular tissue revealed a number of changes in myocardial gene and protein expression altered by MI that were normalized by GGF2 treatment, many of which are involved in energy production.ConclusionsThis study demonstrates that in rats with MI induced systolic dysfunction, GGF2 treatment improves cardiac function. There are differences in sensitivity of the myocardium to GGF2 effects when administered early vs. late post-MI that may be important to consider in the development of GGF2 in humans.
Highlights
Congestive heart failure (CHF) subsequent to myocardial infarction (MI) and other forms of cardiac injury are common clinical problems with a poor prognosis [1]
Residual left ventricular (LV) function was improved in both of the glial growth factor 2 (GGF2) treatment groups compared with the vehicle treated MI group at 4 weeks of treatment as assessed by echocardiography
In experiments where treatment was delayed until 8 weeks after MI, high but not low dose GGF2 treatment was associated with improved systolic function. mRNA and protein expression analysis of remote left ventricular tissue revealed a number of changes in myocardial gene and protein expression altered by MI that were normalized by GGF2 treatment, many of which are involved in energy production
Summary
Congestive heart failure (CHF) subsequent to myocardial infarction (MI) and other forms of cardiac injury are common clinical problems with a poor prognosis [1]. Animal studies have shown that neuregulin-1b (NRG-1b) is a critical regulator of these processes. NRG-1b is released from cardiac microvascular endothelial cells and acts as a paracrine factor via the ErbB family of tyrosine kinase receptors expressed in cardiac myocytes to regulate myocyte differentiation and stress responses [2,3]. Enhancement of NRG-1b signaling via administration of recombinant fragment of NRG-1b improves cardiac systolic function as well as survival in animal models of ischemic, dilated, and viral cardiomyopathy [4]. Clinical trials with a small fragment of NRG-1b suggest positive effects on cardiac function of CHF patients [5,6]. These results suggest that NRG-1b may be a promising therapeutic agent for CHF
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