Characterization of the Receptor-Ligand Pathways Important for Entry and Survival of<i>Francisella tularensis</i>in Human Macrophages

Balagopal, Ashwin; MacFarlane, Amanda Shearer; Mohapatra, Nrusingh P.; Soni, Sanjeev; Gunn, John S.; Schlesinger, Larry S.

doi:10.1128/iai.00795-06

Cited by 108 publications

(145 citation statements)

References 54 publications

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“…Protease treatment of bacteria does not affect this entry pathway, whereas peroxidation and crosslinking of bacterial surface carbohydrates and/or lipopolysaccharides lead to conventional phagocytosis of Francisella. Using F. novicida and specifically looking at primary human monocytes, contributions from complement receptor 3, Fc␥ receptors, mannose receptors, and surfactant protein A have been described (7)(8)(9). Interestingly, these authors also described a 60% reduction of association of Francisella LVS with primary human monocytes in comparison to F. novicida.…”

mentioning

confidence: 86%

Francisella Targets Cholesterol-Rich Host Cell Membrane Domains for Entry into Macrophages

Tamilselvam

Daefler

2008

The Journal of Immunology

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Francisella tularensis is a pathogen optimally adapted to efficiently invade its respective host cell and to proliferate intracellularly. We investigated the role of host cell membrane microdomains in the entry of F. tularensis subspecies holarctica vaccine strain (F. tularensis live vaccine strain) into murine macrophages. F. tularensis live vaccine strain recruits cholesterol-rich lipid domains (“lipid rafts”) with caveolin-1 for successful entry into macrophages. Interference with lipid rafts through the depletion of plasma membrane cholesterol, through induction of raft internalization with choleratoxin, or through removal of raft-associated GPI-anchored proteins by treatment with phosphatidylinositol phospholipase C significantly inhibited entry of Francisella and its intracellular proliferation. Lipid raft-associated components such as cholesterol and caveolin-1 were incorporated into Francisella-containing vesicles during entry and the initial phase of intracellular trafficking inside the host cell. These findings demonstrate that Francisella requires cholesterol-rich membrane domains for entry into and proliferation inside macrophages.

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confidence: 86%

Francisella Targets Cholesterol-Rich Host Cell Membrane Domains for Entry into Macrophages

Tamilselvam

Daefler

2008

The Journal of Immunology

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“…Indeed, one recent study demonstrated that 60% fewer LVS bacteria associate with human monocyte-derived macrophages compared with F. tularensis subsp. novicida (83), and another demonstrated that LVS has a 100-fold greater growth rate in rat macrophages (84). Moreover, we have observed that proinflammatory cytokine expression by macrophages is 10-fold greater from macrophages infected with F. tularensis subsp.…”

Section: Discussionmentioning

confidence: 99%

Phosphatidylinositol 3-Kinase Activation Attenuates the TLR2-Mediated Macrophage Proinflammatory Cytokine Response toFrancisella tularensisLive Vaccine Strain

Medina

Morris

Berton

2010

The Journal of Immunology

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We sought to clarify the role of the PI3‐kinase/Akt pathway in regulating early (< 9 h) proinflammatory responses in macrophages infected with Francisella tularensis Live Vaccine Strain (LVS). LVS‐induced TNF‐α and IL‐6 secretion was markedly increased in macrophages from wildtype C57BL/6 mice pre‐exposed to the PI3‐kinase inhibitor wortmannin compared with vehicle pre‐exposed macrophages; the levels of phosphorylated p38 MAPK and ERK1/2 were also enhanced and remained elevated for a longer period of time. LVS infection rapidly induced MAPK phosphatase‐1 (MKP‐1) expression in a TLR2‐ and PI3‐kinase‐dependent manner. Peak levels of MKP‐1 correlated closely with the decline in p38 MAPK and ERK1/2 phosphorylation. MAPK activation and cytokine production were entirely TLR2‐dependent. Surprisingly, PI3‐kinase/Akt activation was TLR2‐independent; it was also TLR4‐, TLR9‐, TIRAP/Mal‐ and TRIF‐independent. PI3‐kinase activation was, however, dependent on MyD88. These data suggest that LVS infection restrains the TLR2‐triggered pro‐inflammatory response of macrophages via parallel activation of the PI3‐kinase pathway, which enhances MKP‐1 expression. This results in the accelerated deactivation of MAPKs and suppression of proinflammatory cytokine production. This inhibitory pathway may be activated by a novel MyD88‐dependent pattern recognition receptor that is engaged by LVS. This work was supported by NIH grant AI057986.

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“…However, production of the Th2-type cytokine IL-4 by sensitized splenocytes was absent. Alternatively, the low level of IgG2 antibodies induced by ΔmglA infection may indicate insufficient opsonizing antibodies for Fc receptor mediated bacterial uptake, which others have shown promotes phagocytosis of F. novicida U112 [29]. IgG molecules are recognized by different Fcγ receptors, which trigger activating and inhibitory signaling pathways.…”

Section: Discussionmentioning

confidence: 99%

Inhalation of Francisella novicida ΔmglA causes replicative infection that elicits innate and adaptive responses but is not protective against invasive pneumonic tularemia

West

Pelletier

Majure

et al. 2008

Microbes and Infection

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Francisella tularensis causes the zoonosis tularemia in humans, and inhaled F. tularensis ssp. novicida induces lethal murine tularemia. Transcription of virulence factors in F. novicida is regulated by macrophage growth locus A (mglA), a global regulator required for bacterial replication in macrophages in vitro. We examined the infectivity and immunogenicity of attenuated F. novicida ΔmglA in the lung in vivo. Aerosolized ΔmglA caused replicative pulmonary infection that peaked at 7 days and was cleared thereafter, without clinical evidence of disease. In contrast, inhalation of wild type F. novicida resulted in more rapid bacterial replication and dissemination leading to death within 96 hours. Early containment of ΔmglA infection was partially dependent on myeloid differentiation factor 88 and interferon-γ but did not require B or T cells. However, lymphocytes were necessary for subsequent bacterial clearance. Infection with ΔmglA elicited specific IgG1-predominant antibodies and variable interferon-γ recall responses to wild type F. novicida. Inoculation of mice with aerosolized ΔmglA afforded no protection against a subsequent low-dose aerosol challenge with wild type F. novicida. These findings establish that inhalation of F. novicida ΔmglA results in replicative infection that elicits innate and adaptive immune responses but not protective immunity against invasive pneumonic tularemia.

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Characterization of the Receptor-Ligand Pathways Important for Entry and Survival ofFrancisella tularensisin Human Macrophages

Cited by 108 publications

References 54 publications

Francisella Targets Cholesterol-Rich Host Cell Membrane Domains for Entry into Macrophages

Francisella Targets Cholesterol-Rich Host Cell Membrane Domains for Entry into Macrophages

Phosphatidylinositol 3-Kinase Activation Attenuates the TLR2-Mediated Macrophage Proinflammatory Cytokine Response toFrancisella tularensisLive Vaccine Strain

Inhalation of Francisella novicida ΔmglA causes replicative infection that elicits innate and adaptive responses but is not protective against invasive pneumonic tularemia

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