A fibrin biofilm covers blood clots and protects from microbial invasion

Fraser L. Macrae; Cédric Duval; Praveen Papareddy; Stephen R. Baker; Nadira Yuldasheva; Katherine J. Kearney; Helen R. McPherson; Nathan Asquith; Joke Konings; Alessandro Casini; Jay L. Degen; Simon D. Connell; Helen Philippou; Alisa S. Wolberg; Heiko Herwald; Robert A.S. Ariëns

doi:10.1172/JCI98734

A fibrin biofilm covers blood clots and protects from microbial invasion

Fraser L. Macrae, Cédric Duval, Praveen Papareddy, Stephen R. Baker, Nadira Yuldasheva, Katherine J. Kearney, Helen R. McPherson, Nathan Asquith, Joke Konings, Alessandro Casini, Jay L. Degen, Simon D. Connell, Helen Philippou, Alisa S. Wolberg, Heiko Herwald, Robert A.S. Ariëns

Host parasite interactions

Forskningsoutput: Tidskriftsbidrag › Artikel i vetenskaplig tidskrift › Peer review

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Hemostasis requires conversion of fibrinogen to fibrin fibers that generate a characteristic network, interact with blood cells, and initiate tissue repair. The fibrin network is porous and highly permeable, but the spatial arrangement of the external clot face is unknown. Here we show that fibrin transitioned to the blood-air interface through Langmuir film formation, producing a protective film confining clots in human and mouse models. We demonstrated that only fibrin is required for formation of the film, and that it occurred in vitro and in vivo. The fibrin film connected to the underlying clot network through tethering fibers. It was digested by plasmin, and formation of the film was prevented with surfactants. Functionally, the film retained blood cells and protected against penetration by bacterial pathogens in a murine model of dermal infection. Our data show a remarkable aspect of blood clotting in which fibrin forms a protective film covering the external surface of the clot, defending the organism against microbial invasion.

Originalspråk	engelska
Sidor (från-till)	3356-3368
Antal sidor	13
Tidskrift	Journal of Clinical Investigation
Volym	128
Nummer	8
DOI	https://doi.org/10.1172/JCI98734
Status	Published - 2018 aug. 1

Ämnesklassifikation (UKÄ)

Mikrobiologi inom det medicinska området
Hematologi

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10.1172/JCI98734

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Macrae, F. L., Duval, C., Papareddy, P., Baker, S. R., Yuldasheva, N., Kearney, K. J., McPherson, H. R., Asquith, N., Konings, J., Casini, A., Degen, J. L., Connell, S. D., Philippou, H., Wolberg, A. S., Herwald, H., & Ariëns, R. A. S. (2018). A fibrin biofilm covers blood clots and protects from microbial invasion. Journal of Clinical Investigation, 128(8), 3356-3368. https://doi.org/10.1172/JCI98734

@article{29cece23167e4b558a177e77fd47a9eb,

title = "A fibrin biofilm covers blood clots and protects from microbial invasion",

abstract = "Hemostasis requires conversion of fibrinogen to fibrin fibers that generate a characteristic network, interact with blood cells, and initiate tissue repair. The fibrin network is porous and highly permeable, but the spatial arrangement of the external clot face is unknown. Here we show that fibrin transitioned to the blood-air interface through Langmuir film formation, producing a protective film confining clots in human and mouse models. We demonstrated that only fibrin is required for formation of the film, and that it occurred in vitro and in vivo. The fibrin film connected to the underlying clot network through tethering fibers. It was digested by plasmin, and formation of the film was prevented with surfactants. Functionally, the film retained blood cells and protected against penetration by bacterial pathogens in a murine model of dermal infection. Our data show a remarkable aspect of blood clotting in which fibrin forms a protective film covering the external surface of the clot, defending the organism against microbial invasion.",

author = "Macrae, {Fraser L.} and C{\'e}dric Duval and Praveen Papareddy and Baker, {Stephen R.} and Nadira Yuldasheva and Kearney, {Katherine J.} and McPherson, {Helen R.} and Nathan Asquith and Joke Konings and Alessandro Casini and Degen, {Jay L.} and Connell, {Simon D.} and Helen Philippou and Wolberg, {Alisa S.} and Heiko Herwald and Ari{\"e}ns, {Robert A.S.}",

year = "2018",

month = aug,

day = "1",

doi = "10.1172/JCI98734",

language = "English",

volume = "128",

pages = "3356--3368",

journal = "Journal of Clinical Investigation",

issn = "0021-9738",

publisher = "The American Society for Clinical Investigation",

number = "8",

}

Macrae, FL, Duval, C, Papareddy, P, Baker, SR, Yuldasheva, N, Kearney, KJ, McPherson, HR, Asquith, N, Konings, J, Casini, A, Degen, JL, Connell, SD, Philippou, H, Wolberg, AS, Herwald, H & Ariëns, RAS 2018, 'A fibrin biofilm covers blood clots and protects from microbial invasion', Journal of Clinical Investigation, vol. 128, nr. 8, s. 3356-3368. https://doi.org/10.1172/JCI98734

TY - JOUR

T1 - A fibrin biofilm covers blood clots and protects from microbial invasion

AU - Macrae, Fraser L.

AU - Duval, Cédric

AU - Papareddy, Praveen

AU - Baker, Stephen R.

AU - Yuldasheva, Nadira

AU - Kearney, Katherine J.

AU - McPherson, Helen R.

AU - Asquith, Nathan

AU - Konings, Joke

AU - Casini, Alessandro

AU - Degen, Jay L.

AU - Connell, Simon D.

AU - Philippou, Helen

AU - Wolberg, Alisa S.

AU - Herwald, Heiko

AU - Ariëns, Robert A.S.

PY - 2018/8/1

Y1 - 2018/8/1

N2 - Hemostasis requires conversion of fibrinogen to fibrin fibers that generate a characteristic network, interact with blood cells, and initiate tissue repair. The fibrin network is porous and highly permeable, but the spatial arrangement of the external clot face is unknown. Here we show that fibrin transitioned to the blood-air interface through Langmuir film formation, producing a protective film confining clots in human and mouse models. We demonstrated that only fibrin is required for formation of the film, and that it occurred in vitro and in vivo. The fibrin film connected to the underlying clot network through tethering fibers. It was digested by plasmin, and formation of the film was prevented with surfactants. Functionally, the film retained blood cells and protected against penetration by bacterial pathogens in a murine model of dermal infection. Our data show a remarkable aspect of blood clotting in which fibrin forms a protective film covering the external surface of the clot, defending the organism against microbial invasion.

AB - Hemostasis requires conversion of fibrinogen to fibrin fibers that generate a characteristic network, interact with blood cells, and initiate tissue repair. The fibrin network is porous and highly permeable, but the spatial arrangement of the external clot face is unknown. Here we show that fibrin transitioned to the blood-air interface through Langmuir film formation, producing a protective film confining clots in human and mouse models. We demonstrated that only fibrin is required for formation of the film, and that it occurred in vitro and in vivo. The fibrin film connected to the underlying clot network through tethering fibers. It was digested by plasmin, and formation of the film was prevented with surfactants. Functionally, the film retained blood cells and protected against penetration by bacterial pathogens in a murine model of dermal infection. Our data show a remarkable aspect of blood clotting in which fibrin forms a protective film covering the external surface of the clot, defending the organism against microbial invasion.

U2 - 10.1172/JCI98734

DO - 10.1172/JCI98734

M3 - Article

C2 - 29723163

AN - SCOPUS:85051248986

SN - 0021-9738

VL - 128

SP - 3356

EP - 3368

JO - Journal of Clinical Investigation

JF - Journal of Clinical Investigation

IS - 8

ER -

A fibrin biofilm covers blood clots and protects from microbial invasion

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