Abstract
The Maillard reaction products (MRPs) of half-fin anchovy hydrolysates and glucose, named as HAHp(9.0)-G MRPs, were fractionated by size exclusion chromatography into three major fractions (F1–F3). F2, which demonstrated the strongest antibacterial activity against Escherichia coli (E. coli) and showed self-production of hydrogen peroxide (H2O2), was extracted by solid phase extraction. The hydrophobic extract of F2 was further isolated by reverse phase-high performance liquid chromatography into sub-fractions HE-F2-1 and HE-F2-2. Nine peptides were identified from HE-F2-1, and two peptides from HE-F2-2 using liquid chromatography-electrospray ionization/multi-stage mass spectrometry. Three peptides, FEDQLR (HGM-Hp1), ALERTF (HGM-Hp2), and RHPEYAVSVLLR (HGM-Hp3), with net charges of −1, 0, and +1, respectively, were synthesized. The minimal inhibitory concentration of these synthetic peptides was 2 mg/mL against E. coli. Once incubated with logarithmic growth phase of E. coli, HGM-Hp1 and HGM-Hp2 induced significant increases of both extracellular and intracellular H2O2 formation. However, HGM-Hp3 only dramatically enhanced intracellular H2O2 production in E. coli. The increased potassium ions in E. coli suspension after addition of HGM-Hp1 or HGM-Hp2 indicated the destruction of cell integrity via irreversible membrane damage. It is the first report of hydrolysates MRPs-derived peptides that might perform the antibacterial activity via inducing intracellular H2O2 production.
Highlights
Antibiotics play crucial roles in saving lives and improving human and animal health
HAHp(9.0)-G Maillard reaction products (MRPs) were separated into three fractions (F1–F3) by high performance liquid chromatography (HPLC) system (Figure 1A)
Much more attention has been paid to the antibacterial activity of H2 O2 in MRPs
Summary
Antibiotics play crucial roles in saving lives and improving human and animal health. Bacterial pathogens commonly develop antimicrobial resistance due to the extensive use of the antibiotics [1]. As an effective first line of defense against invading pathogens, antimicrobial peptides (AMPs) play a crucial role on the innate immune systems of organisms. The significant advantage of AMPs is their strong antibacterial activity against a very broad spectrum of microorganisms and low rates of bacterial resistance [2]. Natural AMPs can be isolated and characterized from practically all-living organisms [3]. Marine organisms are a good source of AMPs. Recently, an increasing number of AMPs have been isolated from various protein hydrolysates of marine organism sources. A peptide, CgPep, rich in cysteine residue was isolated from oyster muscle hydrolysates [4]
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