Visualizing the Neutrophil Response to Sterile Tissue Injury in Mouse Dermis Reveals a Three-Phase Cascade of Events

Neutrophil granulocytes traffic into sites of organ injury in which they may not only participate in tissue repair and pathogen clearance but may also contribute to collateral cell damage through the release of noxious mediators. The dynamics and mechanisms of neutrophil migration in the extravascul...

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Veröffentlicht in:	Journal of investigative dermatology 2011-10, Vol.131 (10), p.2058-2068
Hauptverfasser:	Ng, Lai Guan, Qin, Jim S., Roediger, Ben, Wang, Yilin, Jain, Rohit, Cavanagh, Lois L., Smith, Adrian L., Jones, Cheryl A., de Veer, Michael, Grimbaldeston, Michele A., Meeusen, Els N., Weninger, Wolfgang
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Sprache:	eng
Schlagworte:	Animals Biological and medical sciences Cell Movement Cyclic ADP-Ribose - metabolism Dermatology Flow Cytometry - methods Green Fluorescent Proteins - metabolism Inflammation Medical sciences Mice Mice, Inbred C57BL Microscopy - methods Neutrophils - cytology Neutrophils - metabolism Pertussis Toxin - metabolism Sheep Skin - immunology Skin - pathology Wound Healing
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creator	Ng, Lai Guan Qin, Jim S. Roediger, Ben Wang, Yilin Jain, Rohit Cavanagh, Lois L. Smith, Adrian L. Jones, Cheryl A. de Veer, Michael Grimbaldeston, Michele A. Meeusen, Els N. Weninger, Wolfgang
description	Neutrophil granulocytes traffic into sites of organ injury in which they may not only participate in tissue repair and pathogen clearance but may also contribute to collateral cell damage through the release of noxious mediators. The dynamics and mechanisms of neutrophil migration in the extravascular space toward loci of tissue damage are not well understood. Here, we have used intravital multi-photon microscopy to dissect the behavior of neutrophils in response to tissue injury in the dermis of mice. We found that, following confined physical injury, initially rare scouting neutrophils migrated in a directional manner toward the damage focus. This was followed by the attraction of waves of additional neutrophils, and finally stabilization of the neutrophil cluster around the injury. Although neutrophil migration in the steady state and during the scouting phase depended on pertussis toxin-sensitive signals, the amplification phase was sensitive to interference with the cyclic adenosine diphosphate ribose pathway. We finally demonstrated that neutrophil scouts also transit through the non-inflamed dermis, suggesting immunosurveillance function by these cells. Together, our data unravel a three-step cascade of events that mediates the specific accumulation of neutrophils at sites of sterile tissue injury in the interstitial space.
doi_str_mv	10.1038/jid.2011.179
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The dynamics and mechanisms of neutrophil migration in the extravascular space toward loci of tissue damage are not well understood. Here, we have used intravital multi-photon microscopy to dissect the behavior of neutrophils in response to tissue injury in the dermis of mice. We found that, following confined physical injury, initially rare scouting neutrophils migrated in a directional manner toward the damage focus. This was followed by the attraction of waves of additional neutrophils, and finally stabilization of the neutrophil cluster around the injury. Although neutrophil migration in the steady state and during the scouting phase depended on pertussis toxin-sensitive signals, the amplification phase was sensitive to interference with the cyclic adenosine diphosphate ribose pathway. We finally demonstrated that neutrophil scouts also transit through the non-inflamed dermis, suggesting immunosurveillance function by these cells. 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subjects	Animals Biological and medical sciences Cell Movement Cyclic ADP-Ribose - metabolism Dermatology Flow Cytometry - methods Green Fluorescent Proteins - metabolism Inflammation Medical sciences Mice Mice, Inbred C57BL Microscopy - methods Neutrophils - cytology Neutrophils - metabolism Pertussis Toxin - metabolism Sheep Skin - immunology Skin - pathology Wound Healing
title	Visualizing the Neutrophil Response to Sterile Tissue Injury in Mouse Dermis Reveals a Three-Phase Cascade of Events
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