Beta toxin catalyzes formation of nucleoprotein matrix in staphylococcal biofilms

Medora J. Huseby; Andrew C. Kruse; Jeff Digre; Petra L. Kohler; Jillian A. Vocke; Ethan E. Mann; Kenneth W. Bayles; Gregory A. Bohach; Patrick M. Schlievert; Douglas H. Ohlendorf; Cathleen A. Earhart

doi:10.1073/pnas.0911032107

Beta toxin catalyzes formation of nucleoprotein matrix in staphylococcal biofilms

Medora J. Huseby, Andrew C. Kruse, Jeff Digre, Petra L. Kohler, Jillian A. Vocke, Ethan E. Mann, Kenneth W. Bayles, Gregory A. Bohach, Patrick M. Schlievert, Douglas H. Ohlendorf, Cathleen A. Earhart

Chemical and Structural Biology (TMED)

Research output: Contribution to journal › Article › peer-review

142 Scopus citations

Abstract

Biofilms are surface-associated communities of microbes encompassed by an extracellular matrix. It is estimated that 80% of all bacterial infections involve biofilm formation, but the structure and regulation of biofilms are incompletely understood. Extracellular DNA (eDNA) is a major structural component in many biofilms of the pathogenic bacterium Staphylococcus aureus, but its role is enigmatic. Here, we demonstrate that beta toxin, a neutral sphingomyelinase and a virulence factor of S. aureus, forms covalent cross-links to itself in the presence of DNA (we refer to this as biofilm ligase activity, independent of sphingomyelinase activity) producing an insoluble nucleoprotein matrix in vitro. Furthermore, we show that beta toxin strongly stimulates biofilm formation in vivo as demonstrated by a role in causation of infectious endocarditis in a rabbit model. Together, these results suggest that beta toxin cross-linking in the presence of eDNA assists in forming the skeletal framework upon which staphylococcal biofilms are established.

Original language	English (US)
Pages (from-to)	14407-14412
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	107
Issue number	32
DOIs	https://doi.org/10.1073/pnas.0911032107
State	Published - Aug 10 2010

Keywords

Exotoxins
Staphyloccus aureus
Virulence

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Huseby, M. J., Kruse, A. C., Digre, J., Kohler, P. L., Vocke, J. A., Mann, E. E., Bayles, K. W., Bohach, G. A., Schlievert, P. M., Ohlendorf, D. H., & Earhart, C. A. (2010). Beta toxin catalyzes formation of nucleoprotein matrix in staphylococcal biofilms. Proceedings of the National Academy of Sciences of the United States of America, 107(32), 14407-14412. https://doi.org/10.1073/pnas.0911032107

Huseby, MJ, Kruse, AC, Digre, J, Kohler, PL, Vocke, JA, Mann, EE, Bayles, KW, Bohach, GA, Schlievert, PM, Ohlendorf, DH & Earhart, CA 2010, 'Beta toxin catalyzes formation of nucleoprotein matrix in staphylococcal biofilms', Proceedings of the National Academy of Sciences of the United States of America, vol. 107, no. 32, pp. 14407-14412. https://doi.org/10.1073/pnas.0911032107

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abstract = "Biofilms are surface-associated communities of microbes encompassed by an extracellular matrix. It is estimated that 80% of all bacterial infections involve biofilm formation, but the structure and regulation of biofilms are incompletely understood. Extracellular DNA (eDNA) is a major structural component in many biofilms of the pathogenic bacterium Staphylococcus aureus, but its role is enigmatic. Here, we demonstrate that beta toxin, a neutral sphingomyelinase and a virulence factor of S. aureus, forms covalent cross-links to itself in the presence of DNA (we refer to this as biofilm ligase activity, independent of sphingomyelinase activity) producing an insoluble nucleoprotein matrix in vitro. Furthermore, we show that beta toxin strongly stimulates biofilm formation in vivo as demonstrated by a role in causation of infectious endocarditis in a rabbit model. Together, these results suggest that beta toxin cross-linking in the presence of eDNA assists in forming the skeletal framework upon which staphylococcal biofilms are established.",

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AU - Digre, Jeff

AU - Kohler, Petra L.

AU - Vocke, Jillian A.

AU - Mann, Ethan E.

AU - Bayles, Kenneth W.

AU - Bohach, Gregory A.

AU - Schlievert, Patrick M.

AU - Ohlendorf, Douglas H.

AU - Earhart, Cathleen A.

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N2 - Biofilms are surface-associated communities of microbes encompassed by an extracellular matrix. It is estimated that 80% of all bacterial infections involve biofilm formation, but the structure and regulation of biofilms are incompletely understood. Extracellular DNA (eDNA) is a major structural component in many biofilms of the pathogenic bacterium Staphylococcus aureus, but its role is enigmatic. Here, we demonstrate that beta toxin, a neutral sphingomyelinase and a virulence factor of S. aureus, forms covalent cross-links to itself in the presence of DNA (we refer to this as biofilm ligase activity, independent of sphingomyelinase activity) producing an insoluble nucleoprotein matrix in vitro. Furthermore, we show that beta toxin strongly stimulates biofilm formation in vivo as demonstrated by a role in causation of infectious endocarditis in a rabbit model. Together, these results suggest that beta toxin cross-linking in the presence of eDNA assists in forming the skeletal framework upon which staphylococcal biofilms are established.

AB - Biofilms are surface-associated communities of microbes encompassed by an extracellular matrix. It is estimated that 80% of all bacterial infections involve biofilm formation, but the structure and regulation of biofilms are incompletely understood. Extracellular DNA (eDNA) is a major structural component in many biofilms of the pathogenic bacterium Staphylococcus aureus, but its role is enigmatic. Here, we demonstrate that beta toxin, a neutral sphingomyelinase and a virulence factor of S. aureus, forms covalent cross-links to itself in the presence of DNA (we refer to this as biofilm ligase activity, independent of sphingomyelinase activity) producing an insoluble nucleoprotein matrix in vitro. Furthermore, we show that beta toxin strongly stimulates biofilm formation in vivo as demonstrated by a role in causation of infectious endocarditis in a rabbit model. Together, these results suggest that beta toxin cross-linking in the presence of eDNA assists in forming the skeletal framework upon which staphylococcal biofilms are established.

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Beta toxin catalyzes formation of nucleoprotein matrix in staphylococcal biofilms

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