Heart-resident CCR2+ macrophages promote neutrophil extravasation through TLR9/MyD88/CXCL5 signaling
Wenjun Li, … , Kory J. Lavine, Daniel Kreisel
Wenjun Li, … , Kory J. Lavine, Daniel Kreisel
Published August 4, 2016
Citation Information: JCI Insight. 2016;1(12):e87315. https://doi.org/10.1172/jci.insight.87315.
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Research Article Inflammation Transplantation

Heart-resident CCR2+ macrophages promote neutrophil extravasation through TLR9/MyD88/CXCL5 signaling

Abstract

It is well established that maladaptive innate immune responses to sterile tissue injury represent a fundamental mechanism of disease pathogenesis. In the context of cardiac ischemia reperfusion injury, neutrophils enter inflamed heart tissue, where they play an important role in potentiating tissue damage and contributing to contractile dysfunction. The precise mechanisms that govern how neutrophils are recruited to and enter the injured heart are incompletely understood. Using a model of cardiac transplant–mediated ischemia reperfusion injury and intravital 2-photon imaging of beating mouse hearts, we determined that tissue-resident CCR2+ monocyte–derived macrophages are essential mediators of neutrophil recruitment into ischemic myocardial tissue. Our studies revealed that neutrophil extravasation is mediated by a TLR9/MyD88/CXCL5 pathway. Intravital 2-photon imaging demonstrated that CXCL2 and CXCL5 play critical and nonredundant roles in guiding neutrophil adhesion and crawling, respectively. Together, these findings uncover a specific role for a tissue-resident monocyte-derived macrophage subset in sterile tissue inflammation and support the evolving concept that macrophage ontogeny is an important determinant of function. Furthermore, our results provide the framework for targeting of cell-specific signaling pathways in myocardial ischemia reperfusion injury.

Authors

Wenjun Li, Hsi-Min Hsiao, Ryuji Higashikubo, Brian T. Saunders, Ankit Bharat, Daniel R. Goldstein, Alexander S. Krupnick, Andrew E. Gelman, Kory J. Lavine, Daniel Kreisel

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Figure 5

Intravital 2-photon imaging demonstrates impaired neutrophil extravasation into TLR9-deficient heart grafts.

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Intravital 2-photon imaging demonstrates impaired neutrophil extravasati...
Neutrophil trafficking in (A) TLR2-deficient (see Supplemental Video 10; n = 4 mice), (B) toll-interleukin 1 receptor domain containing adaptor protein–deficient (TIRAP-deficient; see Supplemental Video 11; n = 4 mice), and (C) TLR9-deficient (see Supplemental Video 12; n = 4 mice) cardiac grafts. White arrows in A and B point to sites of neutrophil extravasation. Relative time is displayed in hrs:min:sec. Scale bars: 50 μm. (D) Percentage of neutrophils that entered myocardial tissue during imaging period was comparable between WT, TLR2-deficient, and TIRAP-deficient hearts. However, the percentage of extravasated neutrophils was significantly lower in TLR9-deficient than WT cardiac grafts. (E) Neutrophil rolling velocities were significantly higher in coronary veins of TLR9-deficient cardiac grafts when compared with WT hearts. Rolling velocities in TLR2- or TIRAP-deficient hearts were comparable with WT cardiac grafts. (F) Intraluminal crawling velocities of neutrophils did not differ significantly between WT, TLR2-deficient, and TIRAP-deficient hearts but were significantly lower than WT conditions when hearts lacked expression of TLR9. *P < 0.05; **P < 0.01 (one-way ANOVA). Data in D, E, and F are derived from 4 mice for each experimental group. For D, E, and F, symbols represent averages obtained from individual mice with over 30 neutrophils examined per mouse, horizontal bars denote means, and error bars denote ±SEM.