A novel antifungal peptide designed from the primary structure of a natural antimicrobial peptide purified from Argopecten purpuratus hemocytes

Abstract: We have isolated and purified a natural antimicrobial peptide from Argopecten purpuratus hemocytes. 47 residues were determined from its primary structure representing the N-terminal of the complete sequence. This peptide of 5100.78Da was chemically synthesized and named Ap. The peptide has 25% of hydrophobic amino acids with a net charge of +1, and partial homology with known active antimicrobial peptides. Based on that sequence, a new peptide was designed and modeled to increase hydrophobicity and cationicity. The designed 30-residue peptide was chemically synthesized resulting in a novel 38% hydrophobic molecule named peptide Ap-S, with a net charge of +5 and 3028Da. A secondary structure was shown by circular dichroism, thus exposing a hydrophobic epitope toward the N-terminus and a hydrophilic one toward the C-terminus, improving amphipathicity. Ap-S was much more active than the parental Ap. Ap-S up to 100μM has no cytotoxic effect against fish cell line CHSE-214. We demonstrated that the chemical modification of a natural peptide and the chemical synthesis of derived molecules may be a powerful tool for obtaining substitutes to conventional antibiotics, displaying the many advantages of antimicrobial peptides and overcoming the limitations of natural peptides for large-scale production and application, such as the low specific activity and the minute amounts recovered in vivo. This peptide may have a relevant application in aquaculture by controlling Saprolegna sp., a parasitic pathogen fungus that attacks the culture of fish in different stages of their growth, from egg to adult. [Copyright &y& Elsevier]