Dipeptide Extract Modulates the Oxi-Antioxidant Response to Intense Physical Exercise

Exposure to intense physical exercise increases reactive oxygen and nitrogen species production. The process can be modulated by dipeptide bioavailability with antioxidant scavenger properties. The effects of dipeptide intake in combination with physical exercise on the oxi-antioxidant response were examined in a randomized and placebo-controlled trial. Blood samples were collected from 20 males aged 21.2 +/- 1.8 years before and after 14-day intake of chicken breast extract (4 g/day), which is a good source of bioactive dipeptides. A significant increase in the NO/H2O2 ratio was observed in the 1st and 30th minute after intense incremental exercise in dipeptides compared to the placebo group. Total antioxidant and thiol redox status were significantly higher in the dipeptide group both before and after exercise; eta(2) >= 0.64 showed a large effect of dipeptides on antioxidant and glutathione status. The level of 8-isoprostanes, markers of oxidative damage, did not change under the influence of dipeptides. By contrast, reduced C-reactive protein levels were found during the post-exercise period in the dipeptide group, which indicates the anti-inflammatory properties of dipeptides. High pre-exercise dipeptide intake enhances antioxidant status and thus reduces the oxi-inflammatory response to intense exercise. Therefore, the application of dipeptides seems to have favourable potential for modulating oxidative stress and inflammation in physically active individuals following a strenuous exercise schedule.

Automated summary

Intense physical exercise leads to increased production of reactive oxygen and nitrogen species. This study examined the effects of dipeptide intake combined with exercise on the oxi-antioxidant response. The results showed that dipeptide intake led to a significant increase in the NO/H2O2 ratio after exercise, indicating enhanced antioxidant status. Additionally, dipeptides were found to reduce C-reactive protein levels, suggesting their anti-inflammatory properties. These findings suggest that dipeptides have potential in reducing oxidative stress and inflammation in physically active individuals.