Listeria bacteriophage peptidoglycan hydrolases feature high thermoresistance and reveal increased activity after divalent metal cation substitution

The ability of the bacteriophage-encoded peptidoglycan hydrolases (endolysins) to destroy Gram-positive bacteria from without makes these enzymes promising antimicrobials. Recombinant endolysins from Listeria monocytogenes phages have been shown to rapidly lyse and kill the pathogen in all environme...

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Bibliographic Details
Published in:Applied microbiology and biotechnology 2012, Vol.93 (2), p.633-643
Main Authors: Schmelcher, Mathias, Waldherr, Florian, Loessner, Martin J.
Format: Article
Language:English
Subjects:
Antimicrobial agents
Bacteria
Bacteriophages - enzymology
Biomedical and Life Sciences
Biotechnologically Relevant Enzymes and Proteins
Biotechnology
Cations
Cations, Divalent - metabolism
Cloning
E coli
Edetic Acid - metabolism
Enzyme Activators - metabolism
Enzyme Inhibitors - metabolism
Enzyme Stability
Enzymes
Food contamination & poisoning
Food safety
Gene expression
Gram-positive bacteria
High temperature
Hydrogen-Ion Concentration
Life Sciences
Listeria
Listeria monocytogenes
Listeria monocytogenes - virology
Metal ions
Metals - metabolism
Microbial Genetics and Genomics
Microbiology
N-Acetylmuramoyl-L-alanine Amidase - chemistry
N-Acetylmuramoyl-L-alanine Amidase - metabolism
Pathogens
Plasmids
Proteins
Sodium chloride
Studies
Temperature
Temperature effects
Viral Proteins - chemistry
Viral Proteins - metabolism
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Summary:The ability of the bacteriophage-encoded peptidoglycan hydrolases (endolysins) to destroy Gram-positive bacteria from without makes these enzymes promising antimicrobials. Recombinant endolysins from Listeria monocytogenes phages have been shown to rapidly lyse and kill the pathogen in all environments. To determine optimum conditions regarding application of recombinant Listeria phage endolysins in food or production equipments, properties of different Listeria endolysins were studied. Optimum NaCl concentration for the amidase HPL511 was 200 nM and 300 mM for the peptidases HPL118, HPL500, and HPLP35. Unlike most other peptidoglycan hydrolases, all four enzymes exhibited highest activity at elevated pH values at around pH 8–9. Lytic activity was abolished by EDTA and could be restored by supplementation with various divalent metal cations, indicating their role in catalytic function. While substitution of the native Zn 2+ by Ca 2+ or Mn 2+ was most effective in case of HPL118, HPL500, and HPLP35, supplementation with Co 2+ and Mn 2+ resulted in an approximately 5-fold increase in HPL511 activity. Interestingly, the glutamate peptidases feature a conserved SxHxxGxAxD zinc-binding motif, which is not present in the amidases, although they also require centrally located divalent metals for activity. The endolysins HPL118, HPL511, and HPLP35 revealed a surprisingly high thermostability, with up to 35% activity remaining after 30 min incubation at 90°C. The available data suggest that denaturation at elevated temperatures is reversible and may be followed by rapid refolding into a functional state.
ISSN:0175-7598
1432-0614
DOI:10.1007/s00253-011-3372-6