Abstract
In response to increasing concern over antibiotic-resistant Staphylococcus aureus, the development of novel antimicrobials has been called for, with bacteriophage endolysins having received considerable attention as alternatives to antibiotics. Most staphylococcal phage endolysins have a modular structure consisting of an N-terminal cysteine, histidine-dependent amidohydrolases/peptidase domain (CHAP), a central amidase domain, and a C-terminal cell wall binding domain (CBD). Despite extensive studies using truncated staphylococcal endolysins, the precise function of the amidase domain has not been determined. Here, a functional analysis of each domain of two S. aureus phage endolysins (LysSA12 and LysSA97) revealed that the CHAP domain conferred the main catalytic activity, while the central amidase domain showed no enzymatic activity in degrading the intact S. aureus cell wall. However, the amidase-lacking endolysins had reduced hydrolytic activity compared to the full-length endolysins. Comparison of the binding affinities of fusion proteins consisting of the green fluorescent protein (GFP) with CBD and GFP with the amidase domain and CBD revealed that the major function of the amidase domain was to enhance the binding affinity of CBD, resulting in higher lytic activity of endolysin. These results suggest an auxiliary binding role of the amidase domain of staphylococcal endolysins, which can be useful information for designing effective antimicrobial and diagnostic agents against S. aureus.
Highlights
Staphylococcus aureus is a Gram-positive facultative anaerobe that frequently colonizes the nose, skin, or gastrointestinal tract [1]
LysSA12 has a conserved Cys-His-Asn catalytic triad in its CHAP domain, and these residues are conserved in LysH5, phi11, and LysK (Figure 1B)
These results suggest that the amidase domain of LysSA97 improves the domain of LysSA97 improves the weak binding of cell wall binding domain (CBD) and thereby enhances the lytic activity weak binding of CBD and thereby enhances the lytic activity of the endolysin
Summary
Staphylococcus aureus is a Gram-positive facultative anaerobe that frequently colonizes the nose, skin, or gastrointestinal tract [1]. S. aureus has long been recognized as an important pathogen causing a wide range of infections, from superficial skin infections to life threatening diseases such as bacteremia, necrotizing pneumonia, and endocarditis [2]. These infections were historically treatable with standard antibiotics, the emergence and spread of multidrug-resistant forms of S. aureus have greatly limited treatment options. Endolysins of Gram-positive bacteria generally have a modular structure consisting
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