Dual-Track Clearance of Circulating Bacteria Balances Rapid Restoration of Blood Sterility with Induction of Adaptive Immunity

Steven P. Broadley; Ann Plaumann; Raffaele Coletti; Christin Lehmann; Andreas Wanisch; Amelie Seidlmeier; Knud Esser; Shanshan Luo; Patrick C. Rämer; Steffen Massberg; Dirk H. Busch; Menno van Lookeren Campagne; Admar Verschoor

doi:10.1016/j.chom.2016.05.023

Dual-Track Clearance of Circulating Bacteria Balances Rapid Restoration of Blood Sterility with Induction of Adaptive Immunity

Steven P. Broadley, Ann Plaumann, Raffaele Coletti, Christin Lehmann, Andreas Wanisch, Amelie Seidlmeier, Knud Esser, Shanshan Luo, Patrick C. Rämer, Steffen Massberg, Dirk H. Busch, Menno van Lookeren Campagne, Admar Verschoor^*

^*Korrespondierende/r Autor/-in für diese Arbeit

Institut für Systemische Entzündungsforschung

140 Zitate (Scopus)

Abstract

Efficient clearance of bacteremia prevents life-threatening disease. Platelet binding to intravascular bacteria, a process involving platelet glycoprotein GPIb and bacterial opsonization with activated complement C3, influences blood clearance and anti-infective immunity. Using intravital microscopy of the bloodstream of mice infected with Listeria monocytogenes, we show that bacterial clearance is not a uniform process but a “dual-track” mechanism consisting of parallel “fast” and “slow” pathways. “Slow clearance” is regulated by time-dependent bacterial opsonization, stochastic platelet binding, and capture of bacteria-platelet-complexes via the complement receptor of the immunoglobulin superfamily, CRIg. The mechanism spares some bacteria from “fast clearance” and rapid destruction in the liver via Kupffer cell scavenger receptors, keeping them available for adaptive immunity induction by splenic CD8α⁺ dendritic cells. We consistently find “fast” and “slow” clearance patterns for a broad panel of other Gram+ and Gram− bacteria. Thus, dual-track clearance balances rapid restoration of blood sterility with induction of specific antibacterial immunity.

Originalsprache	Englisch
Zeitschrift	Cell Host and Microbe
Jahrgang	20
Ausgabenummer	1
Seiten (von - bis)	36-48
Seitenumfang	13
ISSN	1931-3128
DOIs	https://doi.org/10.1016/j.chom.2016.05.023
Publikationsstatus	Veröffentlicht - 13.07.2016

Fördermittel

We thank S. Gordon (Oxford) for input and critical discussion; M.C. Carroll (Harvard Medical School), S. Gordon (Oxford University), C.M. Ballantyne (Baylor College of Medicine), and B. Nieswandt (University of Würzburg) for kindly providing mouse strains; the diagnostics department of the Institute for Medical Microbiology, Immunology and Hygiene (Technische Universität München) for providing ATCC bacterial reference strains; L. Henkel, M. Schiemann, and I. Andrae for expert flow cytometry cell sorting; and P. Graef for experimental assistance. We gratefully acknowledge support by the Technische Universität München Graduate School. Funded by German Research Foundation (DFG) grant SFB 914 (projects Z01 and B02) to S.M. and (project B04) to D.H.B. and A.V. M.L.C. is a current employee of Genentech, Inc. but has no financial conflict of interest.

UN SDGs

Dieser Output leistet einen Beitrag zu folgendem(n) Ziel(en) für nachhaltige Entwicklung

SDG 3 – Gesundheit und Wohlergehen

Strategische Forschungsbereiche und Zentren

Forschungsschwerpunkt: Infektion und Entzündung - Zentrum für Infektions- und Entzündungsforschung Lübeck (ZIEL)

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10.1016/j.chom.2016.05.023

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Broadley, S. P., Plaumann, A., Coletti, R., Lehmann, C., Wanisch, A., Seidlmeier, A., Esser, K., Luo, S., Rämer, P. C., Massberg, S., Busch, D. H., van Lookeren Campagne, M., & Verschoor, A. (2016). Dual-Track Clearance of Circulating Bacteria Balances Rapid Restoration of Blood Sterility with Induction of Adaptive Immunity. Cell Host and Microbe, 20(1), 36-48. https://doi.org/10.1016/j.chom.2016.05.023

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title = "Dual-Track Clearance of Circulating Bacteria Balances Rapid Restoration of Blood Sterility with Induction of Adaptive Immunity",

abstract = "Efficient clearance of bacteremia prevents life-threatening disease. Platelet binding to intravascular bacteria, a process involving platelet glycoprotein GPIb and bacterial opsonization with activated complement C3, influences blood clearance and anti-infective immunity. Using intravital microscopy of the bloodstream of mice infected with Listeria monocytogenes, we show that bacterial clearance is not a uniform process but a “dual-track” mechanism consisting of parallel “fast” and “slow” pathways. “Slow clearance” is regulated by time-dependent bacterial opsonization, stochastic platelet binding, and capture of bacteria-platelet-complexes via the complement receptor of the immunoglobulin superfamily, CRIg. The mechanism spares some bacteria from “fast clearance” and rapid destruction in the liver via Kupffer cell scavenger receptors, keeping them available for adaptive immunity induction by splenic CD8α+ dendritic cells. We consistently find “fast” and “slow” clearance patterns for a broad panel of other Gram+ and Gram− bacteria. Thus, dual-track clearance balances rapid restoration of blood sterility with induction of specific antibacterial immunity.",

author = "Broadley, \{Steven P.\} and Ann Plaumann and Raffaele Coletti and Christin Lehmann and Andreas Wanisch and Amelie Seidlmeier and Knud Esser and Shanshan Luo and R{\"a}mer, \{Patrick C.\} and Steffen Massberg and Busch, \{Dirk H.\} and \{van Lookeren Campagne\}, Menno and Admar Verschoor",

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doi = "10.1016/j.chom.2016.05.023",

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Broadley, SP, Plaumann, A, Coletti, R, Lehmann, C, Wanisch, A, Seidlmeier, A, Esser, K, Luo, S, Rämer, PC, Massberg, S, Busch, DH, van Lookeren Campagne, M & Verschoor, A 2016, 'Dual-Track Clearance of Circulating Bacteria Balances Rapid Restoration of Blood Sterility with Induction of Adaptive Immunity', Cell Host and Microbe, Jg. 20, Nr. 1, S. 36-48. https://doi.org/10.1016/j.chom.2016.05.023

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T1 - Dual-Track Clearance of Circulating Bacteria Balances Rapid Restoration of Blood Sterility with Induction of Adaptive Immunity

AU - Broadley, Steven P.

AU - Plaumann, Ann

AU - Coletti, Raffaele

AU - Lehmann, Christin

AU - Wanisch, Andreas

AU - Seidlmeier, Amelie

AU - Esser, Knud

AU - Luo, Shanshan

AU - Rämer, Patrick C.

AU - Massberg, Steffen

AU - Busch, Dirk H.

AU - van Lookeren Campagne, Menno

AU - Verschoor, Admar

PY - 2016/7/13

Y1 - 2016/7/13

N2 - Efficient clearance of bacteremia prevents life-threatening disease. Platelet binding to intravascular bacteria, a process involving platelet glycoprotein GPIb and bacterial opsonization with activated complement C3, influences blood clearance and anti-infective immunity. Using intravital microscopy of the bloodstream of mice infected with Listeria monocytogenes, we show that bacterial clearance is not a uniform process but a “dual-track” mechanism consisting of parallel “fast” and “slow” pathways. “Slow clearance” is regulated by time-dependent bacterial opsonization, stochastic platelet binding, and capture of bacteria-platelet-complexes via the complement receptor of the immunoglobulin superfamily, CRIg. The mechanism spares some bacteria from “fast clearance” and rapid destruction in the liver via Kupffer cell scavenger receptors, keeping them available for adaptive immunity induction by splenic CD8α+ dendritic cells. We consistently find “fast” and “slow” clearance patterns for a broad panel of other Gram+ and Gram− bacteria. Thus, dual-track clearance balances rapid restoration of blood sterility with induction of specific antibacterial immunity.

AB - Efficient clearance of bacteremia prevents life-threatening disease. Platelet binding to intravascular bacteria, a process involving platelet glycoprotein GPIb and bacterial opsonization with activated complement C3, influences blood clearance and anti-infective immunity. Using intravital microscopy of the bloodstream of mice infected with Listeria monocytogenes, we show that bacterial clearance is not a uniform process but a “dual-track” mechanism consisting of parallel “fast” and “slow” pathways. “Slow clearance” is regulated by time-dependent bacterial opsonization, stochastic platelet binding, and capture of bacteria-platelet-complexes via the complement receptor of the immunoglobulin superfamily, CRIg. The mechanism spares some bacteria from “fast clearance” and rapid destruction in the liver via Kupffer cell scavenger receptors, keeping them available for adaptive immunity induction by splenic CD8α+ dendritic cells. We consistently find “fast” and “slow” clearance patterns for a broad panel of other Gram+ and Gram− bacteria. Thus, dual-track clearance balances rapid restoration of blood sterility with induction of specific antibacterial immunity.

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DO - 10.1016/j.chom.2016.05.023

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AN - SCOPUS:84991104883

SN - 1931-3128

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EP - 48

JO - Cell Host and Microbe

JF - Cell Host and Microbe

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ER -

Dual-Track Clearance of Circulating Bacteria Balances Rapid Restoration of Blood Sterility with Induction of Adaptive Immunity

Abstract

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UN SDGs

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