Peptide Characterization of Bovine Myocardium Hydrolysates and Its Ameliorative Effects on Doxorubicin-Induced Myocardial Injury in H9c2 Cells and in Mice.

Abstract

The prevalence and mortality of heart disease have a persistent existence, and it is important to develop active substances with cardioprotective properties. It has been reported that peptides from animal heart hydrolysates possess cardioprotective activity, but those mechanisms and the sequence of peptides are still unrevealed. In the present study, the extracts of bovine myocardium were prepared by enzymatic hydrolysis (BHH-A) and water extraction (BHH-W). The cardioprotective function of peptides was verified in the DOX-induced H9c2 cells and myocardial injury mice. The mass spectrometry was used to contrast the differences of active ingredients between BHH-W and BHH-A. Results suggested that both BHH-A and BHH-W could increase the activity of antioxidant enzymes in cardiomyocytes and reduce the inflammatory level and apoptosis of myocardial cells. The improvement effects of BHH-A on myocardial injury in mice were better than those of BHH-W. The analysis of peptide composition demonstrated that the contents with N-segment hydrophobic amino acids were higher in the peptides identified in BHH-A. Hence, BHH-A could be used as a potential active substance to improve DOX-induced myocardial injury by reducing oxidative damage, inflammation, and cardiomyocyte apoptosis, and its activity may be related to the richness of small molecular peptides and hydrophobic amino acids.