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Use of a bacteriophage lysin to identify a novel target for antimicrobial development.

PloS one (2013-04-18)
Raymond Schuch, Adam J Pelzek, Assaf Raz, Chad W Euler, Patricia A Ryan, Benjamin Y Winer, Andrew Farnsworth, Shyam S Bhaskaran, C Erec Stebbins, Yong Xu, Adrienne Clifford, David J Bearss, Hariprasad Vankayalapati, Allan R Goldberg, Vincent A Fischetti
RESUMEN

We identified an essential cell wall biosynthetic enzyme in Bacillus anthracis and an inhibitor thereof to which the organism did not spontaneously evolve measurable resistance. This work is based on the exquisite binding specificity of bacteriophage-encoded cell wall-hydrolytic lysins, which have evolved to recognize critical receptors within the bacterial cell wall. Focusing on the B. anthracis-specific PlyG lysin, we first identified its unique cell wall receptor and cognate biosynthetic pathway. Within this pathway, one biosynthetic enzyme, 2-epimerase, was required for both PlyG receptor expression and bacterial growth. The 2-epimerase was used to design a small-molecule inhibitor, epimerox. Epimerox prevented growth of several Gram-positive pathogens and rescued mice challenged with lethal doses of B. anthracis. Importantly, resistance to epimerox was not detected (<10(-11) frequency) in B. anthracis and S. aureus. These results describe the use of phage lysins to identify promising lead molecules with reduced resistance potential for antimicrobial development.

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Anti-Mouse IgG (whole molecule) F(ab′)2 fragment–Alkaline Phosphatase antibody produced in sheep, affinity isolated antibody, buffered aqueous glycerol solution