Nutrients, Vol. 17, Pages 2500: Behavioral and Proteomics Studies on the Regulation of Response Speed in Mice by Whey Protein Hydrolysate Intervention

Nutrients, Vol. 17, Pages 2500: Behavioral and Proteomics Studies on the Regulation of Response Speed in Mice by Whey Protein Hydrolysate Intervention

Nutrients doi: 10.3390/nu17152500

Authors:
Xinxin Ren
Chao Wu
Hui Hong
Yongkang Luo
Yuqing Tan

Background: Response speed refers to an individual’s ability to perceive and react to harmful stimuli, which can vary due to genetics, neural regulation, and environmental factors. Our previous study demonstrated that whey protein hydrolysate was a potential means to enhance cognitive function. Methods: This study used a variety of behavioral methods to evaluate the functional effects of whey protein hydrolysate on improving reaction speed, and revealed its potential mechanisms through proteomics analysis. Results: The results showed that whey protein hydrolysate improved response speed in mice when tested against thermal pain, mechanical strength stimuli, and prepulse inhibition. Proteomic analysis of the hippocampus revealed changes in proteins related to arginine and proline metabolism, as well as neuroactive ligand–receptor interactions. Conclusions: These findings provide new insights into the neuromodulatory effects of whey protein hydrolysate and support its potential role in enhancing response speed and cognitive performance.

​Background: Response speed refers to an individual’s ability to perceive and react to harmful stimuli, which can vary due to genetics, neural regulation, and environmental factors. Our previous study demonstrated that whey protein hydrolysate was a potential means to enhance cognitive function. Methods: This study used a variety of behavioral methods to evaluate the functional effects of whey protein hydrolysate on improving reaction speed, and revealed its potential mechanisms through proteomics analysis. Results: The results showed that whey protein hydrolysate improved response speed in mice when tested against thermal pain, mechanical strength stimuli, and prepulse inhibition. Proteomic analysis of the hippocampus revealed changes in proteins related to arginine and proline metabolism, as well as neuroactive ligand–receptor interactions. Conclusions: These findings provide new insights into the neuromodulatory effects of whey protein hydrolysate and support its potential role in enhancing response speed and cognitive performance. Read More