Abstract
Background/Objective: GHRP-6 is a GH secretagogue hexapeptide with expanding and promising cardioprotective effects. Having determined 0.4 mg/kg as the minimum effective dose for enhancing inotropy based on echocardiographic parameters in healthy rats, we implemented a non-reperfusion myocardial infarct model, with its consequent left ventricle wall thinning and ballooning, via permanent left descending coronary artery ligation. Methods: Rats were assigned to three groups: sham-operated/normal rats, infarcted + saline-treated control rats, and infarcted + GHRP-6-administration rats. Treatments were initiated post-surgery and continued for 7 days. On day 7, the animals were echocardiographically and histologically evaluated. For mitochondrial proteomic analysis, an additional 12 healthy rats were used. Six animals received GHRP-6 or normal saline and were observed for 6 h after the inoculation. Results: Here, we show that GHRP-6 attenuated myocardial tissue demise, reduced myocardial interstitial fibrosis/scarring, and integrally improved left ventricle physiology. The proteomic analysis indicated that the GHRP-6 cardioprotective effects may be theoretically mediated by the concerted upregulation of proteins/pathways involved in fatty acid beta-oxidation, apoptosis prevention pathways, antioxidant defenses, and mitochondrial metabolic reprogramming. Conclusions: GHRP-6 is a potent cardioprotective candidate attenuating morphological and functional outcomes caused by late ischemia.