Literature DB >> 9987105

Germination of Bacillus anthracis spores within alveolar macrophages.

C Guidi-Rontani1, M Weber-Levy, E Labruyère, M Mock.   

Abstract

The fatal character of the infection caused by inhalation of Bacillus anthracis spores results from a complex pathogenic cycle involving the synthesis of toxins by the bacterium. We have shown using immunofluorescent staining, confocal scanning laser microscopy and image cytometry analysis that the alveolar macrophage was the primary site of B. anthracis germination in a murine inhalation infection model. Bacillus anthracis germinated inside murine macrophage-like RAW264.7 cells and murine alveolar macrophages. Germination occurred in vesicles derived from the phagosomal compartment. We have also demonstrated that the toxin genes and their trans-activator, AtxA, were expressed within the macrophages after germination.

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Year:  1999        PMID: 9987105     DOI: 10.1046/j.1365-2958.1999.01137.x

Source DB:  PubMed          Journal:  Mol Microbiol        ISSN: 0950-382X            Impact factor:   3.501


  124 in total

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2.  Testing nucleoside analogues as inhibitors of Bacillus anthracis spore germination in vitro and in macrophage cell culture.

Authors:  Zadkiel Alvarez; Kyungae Lee; Ernesto Abel-Santos
Journal:  Antimicrob Agents Chemother       Date:  2010-10-04       Impact factor: 5.191

3.  Antimicrobial effects of interferon-inducible CXC chemokines against Bacillus anthracis spores and bacilli.

Authors:  Matthew A Crawford; Yinghua Zhu; Candace S Green; Marie D Burdick; Patrick Sanz; Farhang Alem; Alison D O'Brien; Borna Mehrad; Robert M Strieter; Molly A Hughes
Journal:  Infect Immun       Date:  2009-01-29       Impact factor: 3.441

4.  The Bacillus anthracis protein MprF is required for synthesis of lysylphosphatidylglycerols and for resistance to cationic antimicrobial peptides.

Authors:  Shalaka Samant; Fong-Fu Hsu; Alexander A Neyfakh; Hyunwoo Lee
Journal:  J Bacteriol       Date:  2008-12-12       Impact factor: 3.490

5.  Deterministic models of inhalational anthrax in New Zealand white rabbits.

Authors:  Bradford Gutting
Journal:  Biosecur Bioterror       Date:  2014-02-14

6.  Bacillus anthracis has two independent bottlenecks that are dependent on the portal of entry in an intranasal model of inhalational infection.

Authors:  David E Lowe; Stephen M C Ernst; Christine Zito; Jason Ya; Ian J Glomski
Journal:  Infect Immun       Date:  2013-09-16       Impact factor: 3.441

7.  Poly-gamma-glutamate capsule-degrading enzyme treatment enhances phagocytosis and killing of encapsulated Bacillus anthracis.

Authors:  Angelo Scorpio; Donald J Chabot; William A Day; David K O'brien; Nicholas J Vietri; Yoshifumi Itoh; Mansour Mohamadzadeh; Arthur M Friedlander
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8.  Role of anthrax toxins in dissemination, disease progression, and induction of protective adaptive immunity in the mouse aerosol challenge model.

Authors:  Crystal L Loving; Taruna Khurana; Manuel Osorio; Gloria M Lee; Vanessa K Kelly; Scott Stibitz; Tod J Merkel
Journal:  Infect Immun       Date:  2008-10-27       Impact factor: 3.441

9.  Four superoxide dismutases contribute to Bacillus anthracis virulence and provide spores with redundant protection from oxidative stress.

Authors:  Robert J Cybulski; Patrick Sanz; Farhang Alem; Scott Stibitz; Robert L Bull; Alison D O'Brien
Journal:  Infect Immun       Date:  2008-10-27       Impact factor: 3.441

10.  Transcriptional profiling of Bacillus anthracis during infection of host macrophages.

Authors:  Nicholas H Bergman; Erica C Anderson; Ellen E Swenson; Brian K Janes; Nathan Fisher; Matthew M Niemeyer; Amy D Miyoshi; Philip C Hanna
Journal:  Infect Immun       Date:  2007-04-30       Impact factor: 3.441
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