Incorporation of an unnatural amino acid in the active site of porcine pancreatic phospholipase A2. Substitution of histidine by l,2,4-triazole-3-alanine yields an enzyme with high activity at acidic pH

Abstract

The effect of the substitution of the active site histidine 48 by the unnatural 1,2,4-triazole-3-alanine (TAA) amino acid analogue in porcine pancreas phospholipase A₂ (PLA₂) was studied. TAA was introduced biosynthetically using a his-auxotrophic Escherichia coli strain. To study solely the effect of the substitution of the active site histidine, two nonessential histidines (i.e. His17 and His 115) were replaced by asparagines, resulting in a fully active mutant enzyme (His-PLA₂). In this His-PLA₂ the single histidine at position 48 was substituted by TAA with an incorporation efficiency of about 90%, giving a mixture of His-PLA₂ and TAA-PLA₂. Based on the charge difference at acidic pH, both forms could be separated by FPLC, allowing for the purification of TAA-PLA₂ free from His-PLA₂. At pH 6, TAA-PLA₂ has a fivefold reduced activity compared with His-PLA₂. This reduced activity paralells a reduced rate of covalent modification with p-nitrophenacyl bromide of TAA-PLA₂ compared with His-PLA₂. Competitive inhibition gave comparable IC₅₀ values for WT-PLA₂, His-PLA₂ and TAA-PLA₂. These results indicate that the reduction in activity is not caused by a different affinity for the substrate, but more likely results from a reduced k_cat value in TAA-PLA₂. The enzymatic activities for native and mutant PLA₂s were measured at different pH values. For WT-PLA₂ and His-PLA₂ the activity is optimal at pH 6 and is strongly deminished at acidic pH, with no observable activity at pH 3. In contrast, TAA-PLA₂ is as active at pH 3 as at pH 6. Most likely, the decrease in activity observed for WT-PLA₂ and His-PLA₂ is caused by the protonation of the active site His48, which is the general base involved in the activation of the nucleophilic water molecule. In TAA-PLA₂, however, the active site residue TAA48 is unprotonated at both pH 3 and 6 as a result of the low pK_a of TAA compared with histidine.