Hepatoprotective effects of high Fischer's ratio oligopeptides from goat whey against CCl4-Induced acute liver injury in mice

Typical structural characteristics and hepatoprotective effects of novel high Fischer ratio oligopeptides from Antarctic krill on acute alcoholic liver injury

High Fischer ratio oligopeptides derived from Antarctic krill (HFOPs-AK) were screened, and their hepatoprotective effects and potential mechanisms were investigated. Herein, HFOPs-AK, with a Fischer ratio of 29 g/g (40.22 mol/mol) (MW < 1000 Da), were prepared via two-step enzymatic hydrolysis using chymotrypsin and flavourzyme and aromatic amino acid removal. Seventy-eight characteristic peptides were identified from HFOPs-AK through UHPLC-Q/TOF, with peptides containing Leu, Val, or Ile accounting for 79%. High hepatoprotective peptides were purified using GFC and RP-HPLC and identified as SDELGW and LLGWDDM. Furthermore, a murine model of acute liver injury induced by alcohol was successfully established. It was demonstrated that the oral administration of HFOPs-AK (800 mg per kg bw per d) remarkably increased the contents of ADH and ALDH compared with the model group, reaching 3.40 and 5.10 U mg-1 prot, respectively. Further, it was revealed that HFOPs-AK could effectively mitigate hepatic oxidative stress by increasing the levels of GSH-Px (p < 0.01) and decreasing the level of MDA (p < 0.05). Additionally, HFOPs-AK (800 mg per kg bw per d) attenuated liver inflammation by down-regulating the mRNA levels of TNF-α, IL-1β, and IL-6 by 40.45%, 38.48%, and 35.83%, respectively. Therefore, HFOPs-AK may have the potential as a new nutritional supplement for the treatment of alcoholic liver injury.