A MyD88-dependent IFNyR-CCR2 signaling circuit is required for mobilization of monocytes and host defense against systemic bacterial challenge

Monocytes are mobilized to sites of infection via interaction between the chemokine MCP-1 and its receptor CCR2, at which point they differentiate into macrophages that mediate potent antimicrobial effects. In this study we investigated the mechanisms by which monocytes are mobilized in response to...

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Veröffentlicht in:	细胞研究：英文版 2011, Vol.21 (7), p.1068-1079
1. Verfasser:	Eric M Pietras Lloyd S Miller Carl T Johnson Ryan M O＇Connell Paul W Dempsey Genhong Cheng
Format:	Artikel
Sprache:	eng
Schlagworte:	R2信令单核细胞基因缺陷宿主防御小鼠骨髓电路细菌
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creator	Eric M Pietras Lloyd S Miller Carl T Johnson Ryan M O＇Connell Paul W Dempsey Genhong Cheng
description	Monocytes are mobilized to sites of infection via interaction between the chemokine MCP-1 and its receptor CCR2, at which point they differentiate into macrophages that mediate potent antimicrobial effects. In this study we investigated the mechanisms by which monocytes are mobilized in response to systemic challenge with the intracellular bacterium Francisella tularensis. We found that mice deficient in MyD88, interferon-7 （IFNT）R oJ CCR2 all had defects in the expansion of splenic monocyte populations upon E tularensis challenge, and in contro of F. tularensis infection. Interestingly, MyD88-deficient mice were defective in production of IFNγ, and IFNyR deficient mice exhibited defective production of MCP-1, the ligand for CCR2. Transplantation of IFNγR-deficien bone marrow （BM） into wild-type mice further suggested that mobilization of monocytes in response to F. tularensis challenge required IFNγR expression on BM-derived cells. These studies define a critical host defense circuit wherein MyD88-dependent IFNγ production signals via IFNγR expressed on BM-derived cells, resulting in MCP-1 production and activation of CCR2-dependent mobilization of monocytes in the innate immune response to systemic E tularensis challenge.
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In this study we investigated the mechanisms by which monocytes are mobilized in response to systemic challenge with the intracellular bacterium Francisella tularensis. We found that mice deficient in MyD88, interferon-7 （IFNT）R oJ CCR2 all had defects in the expansion of splenic monocyte populations upon E tularensis challenge, and in contro of F. tularensis infection. Interestingly, MyD88-deficient mice were defective in production of IFNγ, and IFNyR deficient mice exhibited defective production of MCP-1, the ligand for CCR2. Transplantation of IFNγR-deficien bone marrow （BM） into wild-type mice further suggested that mobilization of monocytes in response to F. tularensis challenge required IFNγR expression on BM-derived cells. 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In this study we investigated the mechanisms by which monocytes are mobilized in response to systemic challenge with the intracellular bacterium Francisella tularensis. We found that mice deficient in MyD88, interferon-7 （IFNT）R oJ CCR2 all had defects in the expansion of splenic monocyte populations upon E tularensis challenge, and in contro of F. tularensis infection. Interestingly, MyD88-deficient mice were defective in production of IFNγ, and IFNyR deficient mice exhibited defective production of MCP-1, the ligand for CCR2. Transplantation of IFNγR-deficien bone marrow （BM） into wild-type mice further suggested that mobilization of monocytes in response to F. tularensis challenge required IFNγR expression on BM-derived cells. 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In this study we investigated the mechanisms by which monocytes are mobilized in response to systemic challenge with the intracellular bacterium Francisella tularensis. We found that mice deficient in MyD88, interferon-7 （IFNT）R oJ CCR2 all had defects in the expansion of splenic monocyte populations upon E tularensis challenge, and in contro of F. tularensis infection. Interestingly, MyD88-deficient mice were defective in production of IFNγ, and IFNyR deficient mice exhibited defective production of MCP-1, the ligand for CCR2. Transplantation of IFNγR-deficien bone marrow （BM） into wild-type mice further suggested that mobilization of monocytes in response to F. tularensis challenge required IFNγR expression on BM-derived cells. These studies define a critical host defense circuit wherein MyD88-dependent IFNγ production signals via IFNγR expressed on BM-derived cells, resulting in MCP-1 production and activation of CCR2-dependent mobilization of monocytes in the innate immune response to systemic E tularensis challenge.</abstract></addata></record>
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subjects	R2信令单核细胞基因缺陷宿主防御小鼠骨髓电路细菌
title	A MyD88-dependent IFNyR-CCR2 signaling circuit is required for mobilization of monocytes and host defense against systemic bacterial challenge
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