Abstract
Peptide Arg‐Ser‐Ser (RSS) was derived from Lactobacillus amylolyticus co‐incubated with edible Dendrobium aphyllum. Here, we further examined the antioxidative effects of RSS in HepG2 cells subjected to 2,2‐azobis(2‐methylpropanimidamidine) dihydrochloride‐induced oxidative stress. RSS protected cells by eliminating the level of reactive oxygen species (ROS). The protein expression of antioxidant enzymes, Nrf2 and Keap1 determined by western blot, indicated that RSS might maintain cellular homeostasis by directly scavenging free radicals instead of by enzymatic system. Furthermore, quantum chemistry calculations and a characterization of electronic‐related properties showed that the highest occupied molecular orbital energy distribution was on arginine residue. Pre‐treatment with RSS with the active site methylated resulted in increased ROS levels, thereby verifying that N2‐H3 is the active site for antioxidant activity. Our findings provide valuable insights into the antioxidant activity of RSS and a basis for developing antioxidant functional foods.
Highlights
Peptides can eliminate excess free radicals in vivo and inhibit lipid peroxidation, helping the body to resist various diseases [1]
We demonstrated that peptide RSS characterized from edible Dendrobium aphyllum could protect HepG2 cells from oxidative stress
There are some evidence to prove that the RSS antioxidant mechanism is through the scavenging of free radicals directly in HepG2 cells
Summary
Peptides can eliminate excess free radicals in vivo and inhibit lipid peroxidation, helping the body to resist various diseases [1]. Antioxidant peptides have few side effects and have favorable nutritional and processing properties [2]. The antioxidant defense system deployed by organisms to resist ROS in vivo can be concluded two ways (enzymic and non-enzymic systems) [6]. A peptide derived from grape seed have anti-oxidant effect, which can directly scavenge free radicals [8]. Another component such as betaine [9] and Diosmetin [10] can have ability of eliminating cellular free radicals. It has been reported that the mechanisms whereby free radicals are scavenged, are based on providing hydrogen atoms to block free radical reactions [10, 11]
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