Marilyn J. Dillon scite author profile

Blood monocytes are well-characterized precursors for macrophages and dendritic cells. Subsets of human monocytes with differential representation in various disease states are well known. In contrast, mouse monocyte subsets have been characterized minimally. In this study we identify three subpopulations of mouse monocytes that can be distinguished by differential expression of Ly-6C, CD43, CD11c, MBR, and CD62L. The subsets share the characteristics of extensive phagocytosis, similar expression of M-CSF receptor (CD115), and development into macrophages upon M-CSF stimulation. By eliminating blood monocytes with dichloromethylene-bisphosphonate-loaded liposomes and monitoring their repopulation, we showed a developmental relationship between the subsets. Monocytes were maximally depleted 18 h after liposome application and subsequently reappeared in the circulation. These cells were exclusively of the Ly-6Chigh subset, resembling bone marrow monocytes. Serial flow cytometric analyses of newly released Ly-6Chigh monocytes showed that Ly-6C expression on these cells was down-regulated while in circulation. Under inflammatory conditions elicited either by acute infection with Listeria monocytogenes or chronic infection with Leishmania major, there was a significant increase in immature Ly-6Chigh monocytes, resembling the inflammatory left shift of granulocytes. In addition, acute peritoneal inflammation recruited preferentially Ly-6Cmed-high monocytes. Taken together, these data identify distinct subpopulations of mouse blood monocytes that differ in maturation stage and capacity to become recruited to inflammatory sites.

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The Ly-6Chigh Monocyte Subpopulation Transports Listeria monocytogenes into the Brain during Systemic Infection of Mice

Drevets

et al. 2004

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Mononuclear phagocytes can be used by intracellular pathogens to disseminate throughout the host. In the bloodstream these cells are generically referred to as monocytes. However, blood monocytes are a heterogeneous population, and the exact identity of the leukocyte(s) relevant for microbial spreading is not known. Experiments reported in this study used Listeria monocytogenes-infected mice to establish the phenotype of parasitized blood leukocytes and to test their role in systemic dissemination of intracellular bacteria. More than 90% of the blood leukocytes that were associated with bacteria were CD11b+ mononuclear cells. Analysis of newly described monocyte subsets showed that most infected cells belonged to the Ly-6Chigh monocyte subset and that Ly-6Chigh and Ly-6Cneg-low monocytes harbored similar numbers of bacteria per cell. Interestingly, systemic infection with wild-type or ΔactA mutants of L. monocytogenes, both of which escape from phagosomes and replicate intracellularly, caused expansion of the Ly-6Chigh subset. In contrast, this was not evident after infection with Δhly mutants, which neither escape phagosomes nor replicate intracellularly. Importantly, when CD11b+ leukocytes were isolated from the brains of lethally infected mice, 88% of these cells were identified as Ly-6Chigh monocytes. Kinetic analysis showed a significant influx of Ly-6Chigh monocytes into the brain 2 days after systemic infection. This coincided with both bacterial invasion and up-regulation of brain macrophage chemoattractant protein-1 gene expression. These data indicate that the Ly-6Chigh monocyte subset transports L. monocytogenes into the brain and establish their role as Trojan horses in vivo.

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SevereListeria monocytogenesInfection Induces Development of Monocytes with Distinct Phenotypic and Functional Features

Drevets

Schawang

Mandava

et al. 2010

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Monocytes perform diverse roles during infection with the facultative intracellular bacterium Listeria monocytogenes. They are essential as bactericidal cells in host defense but can also become Trojan horses transporting bacteria into the brain. To explain these contrasting roles, we characterized bone marrow (BM) monocytes in steady state and generated during lethal and sublethal L. monocytogenes infection. Ly-6ChighCD11b+ BM monocytes expressed high amounts of M-CSFR/CD115 in steady state and 72 h following sublethal infection. However, infection with increasing numbers of bacteria resulted in progressive loss of CD115 and strongly decreased CD115-encoding c-fms mRNA expression. Conversely, analysis of regulatory molecules showed de novo expression of the nonsignaling IL-1RII, CD121b, under the same conditions. Ly-6ChighCD11b+ monocytes in circulation also acquired a CD115neg/lowCD121bhigh phenotype during lethal infection. These BM monocytes showed upregulation of suppressor of cytokine signaling 1 and 3 and IL-1R–associated kinase-M to a greater extent and/or earlier compared with cells from sublethal infection and showed decreased LPS-induced IL-6 production despite similar levels of surface TLR4 expression. BM monocytes from uninfected or sublethally infected mice bound and internalized very few L. monocytogenes in vitro. However, both functions were significantly increased in monocytes developing during lethal infection. Nonetheless, these cells did not produce reactive oxygen intermediates, suggesting an inability to kill L. monocytogenes. Together, these data show that systemic infections with lethal and sublethal amounts of bacteria differentially shape developing BM monocytes. This results in distinct phenotypic and functional properties consistent with being Trojan horses rather than bactericidal effector cells.

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Innate Responses to Systemic Infection by Intracellular Bacteria Trigger Recruitment of Ly-6Chigh Monocytes to the Brain

Drevets¹,

Schawang²,

Dillon³

et al. 2008

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Blood borne Listeria monocytogenes enter the CNS via migration of parasitized Ly-6Chigh monocytes, but the signals that trigger this migration are not known. To understand more completely events leading to monocyte recruitment, experiments presented here combined microarray analysis of gene expression in the brains of experimentally infected mice with measurements of bacterial CFU and serum cytokines following i.v. infection with L. monocytogenes. At 24 and 48 h postinfection, the brain was sterile but there were significant changes in transcriptional activity related to serum proinflammatory cytokines. Real-time PCR confirmed mRNA up-regulation of genes related to IFN-γ, IL-1, and TNF-α, although IFN-γ itself was not up-regulated in the brain. Infection with Δacta, but not Δhly mutants, increased serum concentrations of IFN-γ, IL-6, and to a lesser extent TNF-α. The brain was not infected but there was widespread mRNA up-regulation in it and an influx of Ly-6Chigh monocytes in Δacta-infected mice. Moreover, ΔactA-infected IFN-γ−/− mice had no brain influx of Ly-6Chigh monocytes despite normal monocyte trafficking from bone marrow to blood and spleen. Additionally, IFN-γ−/− mice showed diminished mRNA expression for monocyte-attracting chemokines, and significantly less CXCL9 and CXCL10 protein in the brain compared with normal mice. These data demonstrate that monocyte recruitment to the brain is independent of bacterial invasion of the CNS and is triggered by proinflammatory cytokines, in particular IFN-γ, produced by the innate immune response to intracellular infection in peripheral organs.

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Marilyn J. Dillon

Subpopulations of Mouse Blood Monocytes Differ in Maturation Stage and Inflammatory Response

The Ly-6Chigh Monocyte Subpopulation Transports Listeria monocytogenes into the Brain during Systemic Infection of Mice

SevereListeria monocytogenesInfection Induces Development of Monocytes with Distinct Phenotypic and Functional Features

Innate Responses to Systemic Infection by Intracellular Bacteria Trigger Recruitment of Ly-6Chigh Monocytes to the Brain

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