Characterization of phospholipases A2 of Naja melanoleuca snake venom modified at the N‐terminal region

Abstract

In phospholipase A2 from Naja melanoleuca snake venom all four lysines were converted into the epsilon-amidinated derivatives without reaction of the alpha-amino group. The amidinated phospholipase (AMPA) showed high enzymatic activity. Starting from AMPA, chemical modification reactions were carried out at the alpha-amino function. This group was blocked with a tert-butyloxycarbonyl or a phenylthiocarbamyl group. Furthermore the polypeptide chain was shortened by one residue by removing the N-terminal asparagine, resulting in the formation of des-Asn1-AMPA. The native enzyme was shortened by eight residues by cyanogen bromide cleavage at the single methionine residue. Although all modified proteins show a reduced affinity for monomeric lipids, they are easily saturated with micellar substrate analogs. Whereas the removal of the N-terminal octapeptide abolished all enzymatic activity the other modified enzymes possess a low (1%), but measurable enzymatic activity. It is concluded that chemical modifications in the N-terminal region give rise to a distortion of the active site, thus reducing the activity of the lipid-bound enzyme.