Utilization of diamondback puffer (Lagocephalus guentheri) biomass for the production of bioactive oligopeptides and their inflammation suppressing effects invitro

Abstract

Development of new anti-inflammatory drugs has always been of prime interest due to various side effects exerted by common non-steroidal anti-inflammatory drugs (NSAIDs). Hence, due to the biochemical diversity and efficient anti-inflammatory activities of bioactive peptides from oceanic sources, their demand is increasing. In this study, the common diamondback puffer fish (Lagocephalus guentheri) muscle (PM) and visceral (PV) mass waste was used to produce enzymatic hydrolysates using trypsin, alcalase and papain digestion which were further used to obtain inflammation suppressing peptides. High pressure liquid chromatography (HPLC) analysis showed abundant essential amino acids like arginine, alanine, tyrosine, and glutamic acid in muscle as well as visceral part. The data obtained by the anti-inflammatory assays such as albumin denaturation inhibition and membrane stabilization assay of hydrolysates showed that alcalase 12th hr and 6th hr showed highest activity for PM and PV respectively. Further, out of the fractions obtained through ultrafiltration, 10-3 kDa showed higher anti-inflammatory activity which was subsequently purified with gel filtration chromatography. Moreover, the purified active peaks were analysed using LC-MS/MS to acquire a peptide sequence of MEPLGQG (731 Da) and LLHA (453 Da) for PMpep and PVpep respectively. In vitro studies revealed non-cytotoxic effects of peptide and pro-inflammatory cytokine suppression post LPS-stimulation in RAW264.7 cells. Thus, the puffer fish and other marine waste can be exploited for the isolation of potential nutraceutical and therapeutic compounds.