In Vitro Antioxidant and Antidiabetic Effects of Atlantic Mackerel and Sardine By-Product Hydrolysates.
Cristina Fuentes, Samuel Verdú, Raúl Grau, José Manuel Barat, Ana Fuentes
Abstract
Open AccessThis work evaluates the effect of raw material and protease enzymes on the antioxidant and antidiabetic potential of fish by-product hydrolysates. For this, mackerel (Scomber scombrus) and sardine (Sardina pilchardus) by-products were hydrolyzed using papain, pepsin, and ProtamexTM. Pepsine produced hydrolysates with a lower degree of hydrolysis (34%) and longer peptide chain lengths (2.9), regardless of the raw material. The highest DH was found for the sardine by-products hydrolyzed with papain and ProtamexTM, exceeding 55% for both enzymes. The mackerel by-product hydrolysates exhibited higher antioxidant activity, while the sardine samples showed more potent antidiabetic effects. Accordingly, sardine by-products and pepsin would be preferable for producing hydrolysates with antidiabetic potential, and mackerel by-products, hydrolyzed papain, and ProtamexTM would be useful for producing antioxidant peptides. This study demonstrates the potential of Atlantic mackerel and sardine waste as a source of bioactive peptides and the opportunity for revalorizing these by-products.