Anna Easton scite author profile

Melioidosis is a severe infectious disease of animals and humans caused by the Gram-negative intracellular pathogen Burkholderia pseudomallei. An Inv/Mxi-Spa-like type III protein secretion apparatus, encoded by the B. pseudomallei bsa locus, facilitates bacterial invasion of epithelial cells, escape from endocytic vesicles and intracellular survival. This study investigated the role of the Bsa type III secretion system in the pathogenesis of melioidosis in murine models. B. pseudomallei bipD mutants, lacking a component of the translocation apparatus, were found to be significantly attenuated following intraperitoneal or intranasal challenge of BALB/c mice. Furthermore, a bipD mutant was attenuated in C57BL/6 IL-12 p40−/− mice, which are highly susceptible to B. pseudomallei infection. Mutation of bipD impaired bacterial replication in the liver and spleen of BALB/c mice in the early stages of infection. B. pseudomallei mutants lacking either the type III secreted guanine nucleotide exchange factor BopE or the putative effectors BopA or BopB exhibited varying degrees of attenuation, with mutations in bopA and bopB causing a significant delay in median time to death. This indicates that bsa-encoded type III secreted proteins may act in concert to determine the outcome of B. pseudomallei infection in mice. Mice inoculated with the B. pseudomallei bipD mutant were partially protected against subsequent challenge with wild-type B. pseudomallei. However, immunization of mice with purified BipD protein was not protective.

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A Critical Role for Neutrophils in Resistance to Experimental Infection withBurkholderia pseudomallei

Easton

et al. 2007

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Inhalation is an important route of infection with Burkholderia pseudomallei, the causative agent of melioidosis. In resistant C57BL/6 mice, activated neutrophils are rapidly recruited to the lungs after intranasal B. pseudomallei infection. Prevention of this response by use of the anti-Gr-1+ cell-depleting monoclonal antibody RB6-8C5 severely exacerbated disease, resulting in an acute lethal infection associated with a 1000-fold increase in lung bacterial loads within 4 days. C57BL/6 interferon (IFN)-gamma(-/-) mice were also acutely susceptible to pulmonary B. pseudomallei infection, dying within 3 days of challenge; this suggests that IFN-gamma is essential for control in the lungs and precedes the protective role of neutrophils in resistance. In neutrophil-depleted mice, lung concentrations of tumor necrosis factor (TNF)-alpha, IFN-gamma, and interleukin-6 were decreased by up to 98%. Natural killer cells were the principle source of IFN-gamma, and monocytes were the principle source of TNF-alpha, suggesting that neutrophils play an important indirect role in the generation of the early cytokine environment in the lungs.

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Role of T Cells in Innate and Adaptive Immunity against MurineBurkholderia pseudomalleiInfection

et al. 2006

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Antigen-specific T cells are important sources of interferon (IFN)-gamma for acquired immunity to intracellular pathogens, but they can also produce IFN- gamma directly via a "bystander" activation pathway in response to proinflammatory cytokines. We investigated the in vivo role of cytokine- versus antigen-mediated T cell activation in resistance to the pathogenic bacterium Burkholderia pseudomallei. IFN-gamma, interleukin (IL)-12, and IL-18 were essential for initial bacterial control in infected mice. B. pseudomallei infection rapidly generated a potent IFN-gamma response from natural killer (NK) cells, NK T cells, conventional T cells, and other cell types within 16 h after infection, in an IL-12- and IL-18-dependent manner. However, early T cell- and NK cell-derived IFN-gamma responses were functionally redundant in cell depletion studies, with IFN-gamma produced by other cell types, such as major histocompatibility complex class II(int) F4/80(+) macrophages being sufficient for initial resistance. In contrast, B. pseudomallei-specific CD4(+) T cells played an important role during the later stage of infection. Thus, the T cell response to primary B. pseudomallei infection is biphasic, an early cytokine-induced phase in which T cells appear to be functionally redundant for initial bacterial clearance, followed by a later antigen-induced phase in which B. pseudomallei-specific T cells, in particular CD4(+) T cells, are important for host resistance.

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Development of Signature-Tagged Mutagenesis in Burkholderia pseudomallei To Identify Genes Important in Survival and Pathogenesis

et al. 2007

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Burkholderia pseudomallei, the causative agent of melioidosis, is an important human pathogen in Southeast Asia and northern Australia for which a vaccine is unavailable. A panel of 892 double signature-tagged mutants was screened for virulence using an intranasal BALB/c mouse model of infection. A novel DNA tag microarray identified 33 mutants as being attenuated in spleens, while 6 were attenuated in both lungs and spleens. The transposon insertion sites in spleen-attenuated mutants revealed genes involved in several stages of capsular polysaccharide biosynthesis and DNA replication and repair, a putative oxidoreductase, ABC transporters, and a lipoprotein that may be important in intercellular spreading. The six mutants identified as missing in both lungs and spleens were found to have insertions in recA involved in the SOS response and DNA repair; putative auxotrophs of leucine, threonine, p-aminobenzoic acid, and a mutant with an insertion in aroB causing auxotrophy for aromatic compounds were also found. Murine challenge studies revealed partial protection in BALB/c mice vaccinated with the aroB mutant. The refined signature-tagged mutagenesis approach developed in this study was used to efficiently identify attenuating mutants from this highly pathogenic species and could be applied to other organisms.

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Anna Easton

Attenuated virulence and protective efficacy of a Burkholderia pseudomallei bsa type III secretion mutant in murine models of melioidosis

A Critical Role for Neutrophils in Resistance to Experimental Infection withBurkholderia pseudomallei

Role of T Cells in Innate and Adaptive Immunity against MurineBurkholderia pseudomalleiInfection

Development of Signature-Tagged Mutagenesis in Burkholderia pseudomallei To Identify Genes Important in Survival and Pathogenesis

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