Bacteriolytic Activity and Specificity of Achromobacter -Lytic Protease

Abstract

Achromobacter β-lytic protease (blp), one of the bacteriolytic proteases secreted by Achromobacter lyticus, exhibited both peptidase and bacteriolytic activities at alkaline pH. The protease was strongly inhibited by 1, 10-phenanthroline, and one zinc atom was detected in the molecule by ion-spray mass spectrometry. The zinc-protease specifically cleaved Gly-X bonds in peptides and possibly possessed subsites S2, S1, S1', and S2' for binding substrate [Schecter, I. and Berger, A. (1967) Biochem. Biophys. Res. Commun. 27, 157–162]. Blp lysed Staphylococcus aureus and Micrococcus luteus cells more efficiently than Achromobacter α-lytic protease (alp) and lysozyme, thus being responsible for the high bacteriolytic activity of A. lyticus. In the lysis of bacterial cell walls, blp hydrolyzed both the D-Ala-Gly/Ala bond at the linkage between the peptide subunit and the interpeptide and the Gly-Gly bond in the interpeptide bridge. These results indicate that blp is a highly active bacteriolytic enzyme with a broad bacteriolytic spectrum, which acts primarily by splitting the linkage between the peptide subunit and the interpeptide in the peptidoglycan.