Journal
BRITISH JOURNAL OF NUTRITION
Volume 130, Issue 4, Pages 616-632Publisher
CAMBRIDGE UNIV PRESS
DOI: 10.1017/S0007114522003579
Keywords
Immunonutrition; Antioxidant response; Immune system; Growth
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This study evaluated the effects of feeding whiteleg shrimp with increasing levels of methionine dipeptide on their performance, immune and antioxidant pathways. It was found that gradually increasing the content of methionine dipeptide in the feed up to 0.24% significantly improved the growth performance, feed efficiency, nutrient and nitrogen utilization, and survival rate of the shrimp. Additionally, the methionine dipeptide feed improved the concentration of free amino acid pool and nitrogen metabolites, and reduced signs of oxidative stress.
Methionine (MET) supplementation is a current strategy to achieve shrimp requirement. Notwithstanding, the efficiency of the precisely formulated feeds can be diminished since shrimps are slow eaters and masticate feed externally that results in nutrient leaching. In this regard, a methionine dipeptide (DL-methionyl DL-methionine) benefits the feed industry by reducing MET water solubility while increasing its bioavailability. Therefore, the effects of feeding whiteleg shrimp (Penaeus vannamei) with increasing levels of methionine dipeptide were evaluated on zootechnical performance and methionine-, immune-and antioxidant-related pathways. A 74 d growth trial was conducted by feeding a control diet and four diets supplemented with AQUAVI (R) Met-Met at 0middot08, 0middot12, 0middot24 and 0middot32% of DM. Diet digestibility, body amino acids (AA) composition and nitrogen metabolites, metabolic enzymes, oxidative status and gene expression were evaluated. It can be concluded that graded dietary increase of methionine dipeptide up to 0middot24 % for 74 d translated in significant gains on the growth performance, feed efficiency, nutrient and nitrogen gain and shrimp survival. Moreover, it was showed that Met-Met dietary spare leads to an improvement of free-AA pool and nitrogen metabolites concentration and reduces the signs of oxidative stress. Finally, in a closer look to the MET-related pathways passive to be altered by Met-Met spare, a clear modulation of the described antioxidant and cell proliferation routes was detected.
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