1. Anti‐Remodeling and Anti‐Fibrotic Effects of the Neuregulin‐1β Glial Growth Factor 2 in a Large Animal Model of Heart Failure
- Author
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Ehab Kasasbeh, Matthew K. Stephenson, Sergey Ryzhov, Abigail Murphy, Sean Lenihan, Igor Feoktistov, Frank E. Harrell, Farhaan A. Ahmad, Philip R. Williams, Amy H. Nunnally, John H. Cleator, Jen Iaci, Cristi L. Galindo, Anthony O. Caggiano, Jamie Adcock, Anindita Ganguly, Truc-Linh Tran, Yanna Song, Douglas B. Sawyer, and Tom J. Parry
- Subjects
Male ,Gerontology ,Pathology ,Time Factors ,Transcription, Genetic ,Swine ,medicine.medical_treatment ,Corrections ,Ventricular Function, Left ,neuregulin ,Rats, Sprague-Dawley ,Fibrosis ,Medicine ,Myocardial infarction ,Phosphorylation ,Myofibroblasts ,Cells, Cultured ,Original Research ,Ventricular Remodeling ,3. Good health ,Neuregulin 1β ,medicine.anatomical_structure ,myocardial infarction ,Neuregulin ,Basal lamina ,Cardiology and Cardiovascular Medicine ,Cardiac function curve ,medicine.medical_specialty ,Anti fibrotic ,Neuregulin-1 ,extracellular matrix ,fibroblasts ,Animals ,Smad3 Protein ,Ventricular remodeling ,Heart Failure ,Dose-Response Relationship, Drug ,business.industry ,Myocardium ,Growth factor ,fibrosis ,medicine.disease ,Myocardial Contraction ,Actins ,Mice, Inbred C57BL ,Disease Models, Animal ,Glial Growth Factor ,Gene Expression Regulation ,Heart failure ,business ,Large animal - Abstract
Background Neuregulin‐1β ( NRG ‐1β) is a growth factor critical for cardiac development and repair with therapeutic potential for heart failure. We previously showed that the glial growth factor 2 ( GGF 2) isoform of NRG ‐1β improves cardiac function in rodents after myocardial infarction ( MI ), but its efficacy in a large animal model of cardiac injury has not been examined. We therefore sought to examine the effects of GGF 2 on ventricular remodeling, cardiac function, and global transcription in post‐ MI swine, as well as potential mechanisms for anti‐remodeling effects. Methods and Results MI was induced in anesthetized swine (n=23) by intracoronary balloon occlusion. At 1 week post‐ MI , survivors (n=13) received GGF 2 treatment (intravenous, biweekly for 4 weeks; n=8) or were untreated (n=5). At 5 weeks post‐ MI , fractional shortening was higher (32.8% versus 25.3%, P =0.019), and left ventricular ( LV ) end‐diastolic dimension lower (4.5 versus 5.3 cm, P =0.003) in GGF 2‐treated animals. Treatment altered expression of 528 genes, as measured by microarrays, including collagens, basal lamina components, and matricellular proteins. GGF 2‐treated pigs exhibited improvements in LV cardiomyocyte mitochondria and intercalated disk structures and showed less fibrosis, altered matrix structure, and fewer myofibroblasts (myoFbs), based on trichrome staining, electron microscopy, and immunostaining. In vitro experiments with isolated murine and rat cardiac fibroblasts demonstrate that NRG ‐1β reduces myoFbs, and suppresses TGF β‐induced phospho‐ SMAD 3 as well as α SMA expression. Conclusions These results suggest that GGF 2/ NRG ‐1β prevents adverse remodeling after injury in part via anti‐fibrotic effects in the heart.
- Published
- 2014