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Exploration of Synergistic Action of Cell Wall-Degrading Enzymes against Mycobacterium tuberculosis.

Antimicrobial agents and chemotherapy (2021-07-20)
Loes van Schie, Katlyn Borgers, Gitte Michielsen, Evelyn Plets, Marnik Vuylsteke, Petra Tiels, Nele Festjens, Nico Callewaert
RÉSUMÉ

The major global health threat tuberculosis is caused by Mycobacterium tuberculosis. M. tuberculosis has a complex cell envelope-a partially covalently linked composite of polysaccharides, peptidoglycan, and lipids, including a mycolic acid layer-which conveys pathogenicity but also protects against antibiotics. Given previous successes in treating Gram-positive and -negative infections with cell wall-degrading enzymes, we investigated such an approach for M. tuberculosis. In this study, we aimed to (i) develop an M. tuberculosis microtiter growth inhibition assay that allows undisturbed cell envelope formation to overcome the invalidation of results by typical clumped M. tuberculosis growth in surfactant-free assays, (ii) explore anti-M. tuberculosis potency of cell wall layer-degrading enzymes, and (iii) investigate the concerted action of several such enzymes. We inserted a bacterial luciferase operon in an auxotrophic M. tuberculosis strain to develop a microtiter assay that allows proper evaluation of cell wall-degrading anti-M. tuberculosis enzymes. We assessed growth inhibition by enzymes (recombinant mycobacteriophage mycolic acid esterase [LysB], fungal α-amylase, and human and chicken egg white lysozymes) and combinations thereof in the presence or absence of biopharmaceutically acceptable surfactant. Our biosafety level 2 assay identified both LysB and lysozymes as potent M. tuberculosis inhibitors but only in the presence of surfactant. Moreover, the most potent disruption of the mycolic acid hydrophobic barrier was obtained by the highly synergistic combination of LysB, α-amylase, and polysorbate 80. Synergistically acting cell wall-degrading enzymes are potently inhibiting M. tuberculosis, which sets the scene for the design of specifically tailored antimycobacterial (fusion) enzymes. Airway delivery of protein therapeutics has already been established and should be studied in animal models for active TB.

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Description du produit

Sigma-Aldrich
Lysozyme from chicken egg white, powder or granules, ≥90 %, ≥39,000 units/mg protein
Sigma-Aldrich
α-Amylase from Aspergillus oryzae, aqueous solution, ≥800 FAU/g