Primary involvement of pharynx and peyer's patch in inhalational and intestinal anthrax

Bacillus anthracis causes three forms of anthrax: inhalational, gastrointestinal, and cutaneous. Anthrax is characterized by both toxemia, which is caused by secretion of immunomodulating toxins (lethal toxin and edema toxin), and septicemia, which is associated with bacterial encapsulation. Here we...

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Bibliographic Details
Published in:PLoS pathogens 2007-06, Vol.3 (6), p.e76
Main Authors: Glomski, Ian J, Piris-Gimenez, Alejandro, Huerre, Michel, Mock, Michèle, Goossens, Pierre L
Format: Article
Language:English
Subjects:
Animal models
Animals
Anthrax
Anthrax - microbiology
Anthrax - pathology
Bacillus anthracis - enzymology
Bacillus anthracis - genetics
Bacillus anthracis - growth & development
Bacteria
Bacterial growth
Bacterial infections
Bacteriology
Disease Models, Animal
Edema
Eubacteria
Food contamination & poisoning
Gastrointestinal Diseases - microbiology
Gastrointestinal Diseases - pathology
Gram-positive bacteria
Infections
Infectious Diseases
Inhalation Exposure
Luciferases - metabolism
Luminescence
Luminescent Measurements
Lymph nodes
Lymph Nodes - microbiology
Lymph Nodes - pathology
Mice
Mice, Inbred BALB C
Microbiology
Mus (Mouse)
Nasal Cavity - microbiology
Nasal Cavity - pathology
Organisms, Genetically Modified
Pathogenesis
Peyer's Patches - microbiology
Peyer's Patches - pathology
Pharynx
Pharynx - microbiology
Pharynx - pathology
Proteins
Skin
Skin - microbiology
Skin - pathology
Spleen
Spores, Bacterial
Throat
Toxins
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Summary:Bacillus anthracis causes three forms of anthrax: inhalational, gastrointestinal, and cutaneous. Anthrax is characterized by both toxemia, which is caused by secretion of immunomodulating toxins (lethal toxin and edema toxin), and septicemia, which is associated with bacterial encapsulation. Here we report that, contrary to the current view of B. anthracis pathogenesis, B. anthracis spores germinate and establish infections at the initial site of inoculation in both inhalational and cutaneous infections without needing to be transported to draining lymph nodes, and that inhaled spores establish initial infection in nasal-associated lymphoid tissues. Furthermore, we found that Peyer's patches in the mouse intestine are the primary site of bacterial growth after intragastric inoculation, thus establishing an animal model of gastrointestinal anthrax. All routes of infection progressed to the draining lymph nodes, spleen, lungs, and ultimately the blood. These discoveries were made possible through the development of a novel dynamic mouse model of B. anthracis infection using bioluminescent non-toxinogenic capsulated bacteria that can be visualized within the mouse in real-time, and demonstrate the value of in vivo imaging in the analysis of B. anthracis infection. Our data imply that previously unrecognized portals of bacterial entry demand more intensive investigation, and will significantly transform the current perception of inhalational, gastrointestinal, and cutaneous B. anthracis pathogenesis.
ISSN:1553-7374
1553-7366
1553-7374
DOI:10.1371/journal.ppat.0030076