Adhesion of Staphylococcus aureus to the vessel wall under flow is mediated by von Willebrand factor-binding protein

Jorien Claes; Thomas Vanassche; Marijke Peetermans; Laurens Liesenborghs; Christophe Vandenbriele; Karen Vanhoorelbeke; Dominique Missiakas; Olaf Schneewind; Marc F Hoylaerts; Ruth Heying; Peter Verhamme

doi:10.1182/blood-2014-02-558890

Adhesion of Staphylococcus aureus to the vessel wall under flow is mediated by von Willebrand factor-binding protein

Jorien Claes, Thomas Vanassche, Marijke Peetermans, Laurens Liesenborghs, Christophe Vandenbriele, Karen Vanhoorelbeke, Dominique Missiakas, Olaf Schneewind, Marc F Hoylaerts, Ruth Heying, Peter Verhamme

Emerging Infectious Diseases

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

Abstract

Adhesion of Staphylococcus aureus to blood vessels under shear stress requires von Willebrand factor (VWF). Several bacterial factors have been proposed to interact with VWF, including VWF-binding protein (vWbp), a secreted coagulase that activates the host's prothrombin to generate fibrin. We measured the adhesion of S aureus Newman and a vWbp-deficient mutant (vwb) to VWF, collagen, and activated endothelial cells in a microparallel flow chamber. In vivo adhesion of S aureus was evaluated in the mesenteric circulation of wild-type (WT) and VWF-deficient mice. We found a shear-dependent increase in adhesion of S aureus to the (sub)endothelium that was dependent on interactions between vWbp and the A1-domain of VWF. Adhesion was further enhanced by coagulase-mediated fibrin formation that clustered bacteria and recruited platelets into bacterial microthrombi. In vivo, deficiency of vWbp or VWF as well as inhibition of coagulase activity reduced S aureus adhesion. We conclude that vWbp contributes to vascular adhesion of S aureus through 2 independent mechanisms: shear-mediated binding to VWF and activation of prothrombin to form S aureus-fibrin-platelet aggregates.

Original language	English
Journal	Blood
Volume	124
Issue number	10
Pages (from-to)	1669-76
Number of pages	8
ISSN	0006-4971
DOIs	https://doi.org/10.1182/blood-2014-02-558890
Publication status	Published - 4-Sep-2014

Keywords

Animals
Bacterial Adhesion/genetics
Blood Vessels/metabolism
Cells, Cultured
Endothelium, Vascular/metabolism
Human Umbilical Vein Endothelial Cells
Humans
Mice
Mice, Inbred C57BL
Mice, Knockout
Organisms, Genetically Modified
Platelet Membrane Glycoproteins/physiology
Regional Blood Flow/physiology
Staphylococcal Infections/microbiology
Staphylococcus aureus/physiology
Stress, Mechanical
von Willebrand Factor/genetics

Access to Document

10.1182/blood-2014-02-558890

Cite this

Claes, Jorien ; Vanassche, Thomas ; Peetermans, Marijke ; Liesenborghs, Laurens ; Vandenbriele, Christophe ; Vanhoorelbeke, Karen ; Missiakas, Dominique ; Schneewind, Olaf ; Hoylaerts, Marc F ; Heying, Ruth ; Verhamme, Peter. / Adhesion of Staphylococcus aureus to the vessel wall under flow is mediated by von Willebrand factor-binding protein. In: Blood. 2014 ; Vol. 124, No. 10. pp. 1669-76.

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title = "Adhesion of Staphylococcus aureus to the vessel wall under flow is mediated by von Willebrand factor-binding protein",

abstract = "Adhesion of Staphylococcus aureus to blood vessels under shear stress requires von Willebrand factor (VWF). Several bacterial factors have been proposed to interact with VWF, including VWF-binding protein (vWbp), a secreted coagulase that activates the host's prothrombin to generate fibrin. We measured the adhesion of S aureus Newman and a vWbp-deficient mutant (vwb) to VWF, collagen, and activated endothelial cells in a microparallel flow chamber. In vivo adhesion of S aureus was evaluated in the mesenteric circulation of wild-type (WT) and VWF-deficient mice. We found a shear-dependent increase in adhesion of S aureus to the (sub)endothelium that was dependent on interactions between vWbp and the A1-domain of VWF. Adhesion was further enhanced by coagulase-mediated fibrin formation that clustered bacteria and recruited platelets into bacterial microthrombi. In vivo, deficiency of vWbp or VWF as well as inhibition of coagulase activity reduced S aureus adhesion. We conclude that vWbp contributes to vascular adhesion of S aureus through 2 independent mechanisms: shear-mediated binding to VWF and activation of prothrombin to form S aureus-fibrin-platelet aggregates. ",

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author = "Jorien Claes and Thomas Vanassche and Marijke Peetermans and Laurens Liesenborghs and Christophe Vandenbriele and Karen Vanhoorelbeke and Dominique Missiakas and Olaf Schneewind and Hoylaerts, {Marc F} and Ruth Heying and Peter Verhamme",

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doi = "10.1182/blood-2014-02-558890",

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Adhesion of Staphylococcus aureus to the vessel wall under flow is mediated by von Willebrand factor-binding protein. / Claes, Jorien; Vanassche, Thomas; Peetermans, Marijke; Liesenborghs, Laurens; Vandenbriele, Christophe; Vanhoorelbeke, Karen; Missiakas, Dominique; Schneewind, Olaf; Hoylaerts, Marc F; Heying, Ruth; Verhamme, Peter.

In: Blood, Vol. 124, No. 10, 04.09.2014, p. 1669-76.

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

TY - JOUR

T1 - Adhesion of Staphylococcus aureus to the vessel wall under flow is mediated by von Willebrand factor-binding protein

AU - Claes, Jorien

AU - Vanassche, Thomas

AU - Peetermans, Marijke

AU - Liesenborghs, Laurens

AU - Vandenbriele, Christophe

AU - Vanhoorelbeke, Karen

AU - Missiakas, Dominique

AU - Schneewind, Olaf

AU - Hoylaerts, Marc F

AU - Heying, Ruth

AU - Verhamme, Peter

PY - 2014/9/4

Y1 - 2014/9/4

N2 - Adhesion of Staphylococcus aureus to blood vessels under shear stress requires von Willebrand factor (VWF). Several bacterial factors have been proposed to interact with VWF, including VWF-binding protein (vWbp), a secreted coagulase that activates the host's prothrombin to generate fibrin. We measured the adhesion of S aureus Newman and a vWbp-deficient mutant (vwb) to VWF, collagen, and activated endothelial cells in a microparallel flow chamber. In vivo adhesion of S aureus was evaluated in the mesenteric circulation of wild-type (WT) and VWF-deficient mice. We found a shear-dependent increase in adhesion of S aureus to the (sub)endothelium that was dependent on interactions between vWbp and the A1-domain of VWF. Adhesion was further enhanced by coagulase-mediated fibrin formation that clustered bacteria and recruited platelets into bacterial microthrombi. In vivo, deficiency of vWbp or VWF as well as inhibition of coagulase activity reduced S aureus adhesion. We conclude that vWbp contributes to vascular adhesion of S aureus through 2 independent mechanisms: shear-mediated binding to VWF and activation of prothrombin to form S aureus-fibrin-platelet aggregates.

AB - Adhesion of Staphylococcus aureus to blood vessels under shear stress requires von Willebrand factor (VWF). Several bacterial factors have been proposed to interact with VWF, including VWF-binding protein (vWbp), a secreted coagulase that activates the host's prothrombin to generate fibrin. We measured the adhesion of S aureus Newman and a vWbp-deficient mutant (vwb) to VWF, collagen, and activated endothelial cells in a microparallel flow chamber. In vivo adhesion of S aureus was evaluated in the mesenteric circulation of wild-type (WT) and VWF-deficient mice. We found a shear-dependent increase in adhesion of S aureus to the (sub)endothelium that was dependent on interactions between vWbp and the A1-domain of VWF. Adhesion was further enhanced by coagulase-mediated fibrin formation that clustered bacteria and recruited platelets into bacterial microthrombi. In vivo, deficiency of vWbp or VWF as well as inhibition of coagulase activity reduced S aureus adhesion. We conclude that vWbp contributes to vascular adhesion of S aureus through 2 independent mechanisms: shear-mediated binding to VWF and activation of prothrombin to form S aureus-fibrin-platelet aggregates.

KW - Animals

KW - Bacterial Adhesion/genetics

KW - Blood Vessels/metabolism

KW - Cells, Cultured

KW - Endothelium, Vascular/metabolism

KW - Human Umbilical Vein Endothelial Cells

KW - Humans

KW - Mice

KW - Mice, Inbred C57BL

KW - Mice, Knockout

KW - Organisms, Genetically Modified

KW - Platelet Membrane Glycoproteins/physiology

KW - Regional Blood Flow/physiology

KW - Staphylococcal Infections/microbiology

KW - Staphylococcus aureus/physiology

KW - Stress, Mechanical

KW - von Willebrand Factor/genetics

U2 - 10.1182/blood-2014-02-558890

DO - 10.1182/blood-2014-02-558890

M3 - Article

C2 - 24951431

VL - 124

SP - 1669

EP - 1676

JO - Blood

JF - Blood

SN - 0006-4971

IS - 10

ER -