Immunomodulatory peptides from sturgeon cartilage: Isolation, identification, molecular docking and effects on RAW264.7 cells

Immunomodulatory peptides from sturgeon cartilage: Isolation, identification, molecular docking and effects on RAW264.7 cells

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Sturgeons (Acipenseridae), ancient fish known for their caviar, produce underutilized by-products like protein-rich cartilage, which is a source of high-quality bioactive peptides.This study investigates immunomodulatory peptides from sturgeon cartilage hydrolysates mechanisms.The study found Burners that sturgeon cartilage hydrolysate F2–7 and its key peptides(DHVPLPLP and HVPLPLP)significantly promoted RAW267.4 cell proliferation, NO release, and phagocytosis (P < 0.

001).Additionally, western blotting confirmed that F2–7 enhances immune response by increasing the expression of P-IKKα/β, IΚΚ, p65, and P-p65 proteins in the NF-κB signalling pathway (P < 0.01).Molecular docking further demonstrated that DHVPLPLP and HVPLPLP bind to NF-κB pathway proteins via hydrogen bonding, with low estimated binding energies (−2.

75 and −1.64; −6.04 Prop Replicas and −4.75 kcal/mol), thus establishing their role as key immune peptides in F2–7.

Therefore, DHVPLPLP and HVPLPLP have the potential to be developed as dietary supplements for immune enhancement.Their ability to enhance immune function provides a theoretical basis for novel immune supplements.