Molecular Basis of Resistance to Muramidase and Cationic Antimicrobial Peptide Activity of Lysozyme in Staphylococci

Authors

Silvia Herbert, University of Tübingen
Agnieszka Bera, University of Tübingen
Christiane Nerz, University of Tübingen
Dirk Kraus, University of Tübingen
Andreas Peschel, University of Tübingen
Christiane Goerke, University of Tübingen
Michael Meehl, Dartmouth College
Ambrose Cheung, Dartmouth CollegeFollow
Friedrich Gotz, University of Tübingen

Document Type

Article

Publication Date

7-27-2007

Publication Title

PLoS Pathogens

Department

Geisel School of Medicine

Abstract

It has been shown recently that modification of peptidoglycan by O-acetylation renders pathogenic staphylococci resistant to the muramidase activity of lysozyme. Here, we show that a Staphylococcus aureus double mutant defective in O-acetyltransferase A (OatA), and the glycopeptide resistance-associated two-component system, GraRS, is much more sensitive to lysozyme than S. aureus with the oatA mutation alone. The graRS single mutant was resistant to the muramidase activity of lysozyme, but was sensitive to cationic antimicrobial peptides (CAMPs) such as the human lysozyme-derived peptide ₁₀₇R-A-W-V-A-W-R-N-R₁₁₅ (LP9), polymyxin B, or gallidermin. A comparative transcriptome analysis of wild type and the graRS mutant revealed that GraRS controls 248 genes. It up-regulates global regulators (rot, sarS, or mgrA), various colonization factors, and exotoxin-encoding genes, as well as the ica and dlt operons. A pronounced decrease in the expression of the latter two operons explains why the graRS mutant is also biofilm-negative. The decrease of the dlt transcript in the graRS mutant correlates with a 46.7% decrease in the content of esterified d-alanyl groups in teichoic acids. The oatA/dltA double mutant showed the highest sensitivity to lysozyme; this mutant completely lacks teichoic acid–bound d-alanine esters, which are responsible for the increased susceptibility to CAMPs and peptidoglycan O-acetylation. Our results demonstrate that resistance to lysozyme can be dissected into genes mediating resistance to its muramidase activity (oatA) and genes mediating resistance to CAMPs (graRS and dlt). The two lysozyme activities act synergistically, as the oatA/dltA or oatA/graRS double mutants are much more susceptible to lysozyme than each of the single mutants.

DOI

10.1371/journal.ppat.0030102

Original Citation

Herbert S, Bera A, Nerz C, Kraus D, Peschel A, Goerke C, Meehl M, Cheung A, Götz F. Molecular basis of resistance to muramidase and cationic antimicrobial peptide activity of lysozyme in staphylococci. PLoS Pathog. 2007 Jul 27;3(7):e102. doi: 10.1371/journal.ppat.0030102. PMID: 17676995; PMCID: PMC1933452.

Dartmouth Digital Commons Citation

Herbert, Silvia; Bera, Agnieszka; Nerz, Christiane; Kraus, Dirk; Peschel, Andreas; Goerke, Christiane; Meehl, Michael; Cheung, Ambrose; and Gotz, Friedrich, "Molecular Basis of Resistance to Muramidase and Cationic Antimicrobial Peptide Activity of Lysozyme in Staphylococci" (2007). Dartmouth Scholarship. 2972.
https://digitalcommons.dartmouth.edu/facoa/2972