AI Article Synopsis

  • - The study investigates a new protein, rEnd2, from a bacteriophage that targets and degrades the protective outer layer of bacteria, particularly focusing on its interaction with the antibiotic colistin and its effectiveness when paired with nanoparticles.
  • - The purification and analysis of rEnd2 showed it works best in neutral pH and warm temperatures, with a structural similarity to other known antibacterial proteins, but it loses effectiveness in the presence of certain surfactants.
  • - Despite demonstrating some ability to break down bacterial structure, rEnd2 was not effective enough on its own or even when combined with colistin, indicating the need for further research to improve its antimicrobial capabilities.

Article Abstract

The global health threat posed by antibiotic resistance has led to new research involving bacteriophage-encoded enzymes. This study characterized a new peptidoglycan-degrading protein and evaluated its synergism with colistin and its antimicrobial efficacy when conjugated with polycationic-polymer nanoparticles. The gene that codes for endolysin in the vB_PaeM_USP2, a Pseudomonas aeruginosa bacteriophage, was cloned and expressed in Escherichia coli. The recombinant endolysin (rEnd2) was purified and its biochemical properties were determined using peptidoglycan substrate. The enzymatic activity was measured through peptidoglycan layer degradation and a decrease in turbidity of permeabilized Gram-negative bacteria. The antimicrobial activity of rEnd2, alone and in combination with colistin, was evaluated by checkerboard assay. The antibacterial activity of the cationic lipid oleylamine (OAM) conjugated with rEnd2 (OAM-rEnd2) was evaluated by time killing assay. The rEnd2 is structurally analogue with other endolysins and showed muramidase activity. The rEnd2 maintained higher activity between pH 6.0 to 7.5, had maximum activity at 35 °C, and was not affected by chaotropic and reducing reagents. It was sensitive to an increase in surfactant concentration, being inactivated by sodium dodecyl sulfate and cetyltrimethylammonium bromide. Ions exhibited neither a positive nor a negative effect on enzyme activity. The rEnd2 showed clear muralytic activity and decreased turbidity of permeabilized Gram-negative bacteria. However, it did not control bacterial growth despite the combination with an antibiotic and its complexation with polycation (OAM-rEnd2 nanoparticle conjugate). The rEnd2 did not show clear antimicrobial activity suggesting further optimization of conditions for its activity or engineering and modification.

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Source
http://dx.doi.org/10.1007/s12602-024-10374-5DOI Listing

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