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Helicobacter pylori phagosome maturation in primary human macrophages
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Journal Article
Helicobacter pylori phagosome maturation in primary human macrophages
2011
Overview
Background
Helicobacter pylori
(
H. pylori
) is a micro-aerophilic, spiral-shaped, motile bacterium that is the principal cause of gastric and duodenal ulcers in humans and is a major risk factor for the development of gastric cancer. Despite provoking a strong innate and adaptive immune response in the host,
H. pylori
persists in the gastric mucosa, avoiding eradication by macrophages and other phagocytic cells, which are recruited to the site of infection. Here we have characterised the critical degradative process of phagosome maturation in primary human macrophages for five genotypically and phenotypically distinct clinical strains of
H. pylori
.
Results
All of the
H. pylori
strains examined showed some disruption to the phagosome maturation process, when compared to control
E. coli
. The early endosome marker EEA1 and late endosome marker Rab7 were retained on
H. pylori
phagosomes, while the late endosome-lysosome markers CD63, LAMP-1 and LAMP-2 were acquired in an apparently normal manner. Acquisition of EEA1 by
H. pylori
phagosomes appeared to occur by two distinct, strain specific modes.
H. pylori
strains that were negative for the cancer associated virulence factor CagA were detected in phagosomes that recruited large amounts of EEA1 relative to Rab5, compared to CagA positive strains. There were also strain specific differences in the timing of Rab7 acquisition which correlated with differences in the rate of intracellular trafficking of phagosomes and the timing of megasome formation. Megasomes were observed for all of the
H. pylori
strains examined.
Conclusions
H. pylori
appeared to disrupt the normal process of phagosome maturation in primary human macrophages, appearing to block endosome fission. This resulted in the formation of a hybrid phagosome-endosome-lysosome compartment, which we propose has reduced degradative capacity. Reduced killing by phagocytes is consistent with the persistence of
H. pylori
in the host, and would contribute to the chronic stimulation of the inflammatory immune response, which underlies
H. pylori
-associated disease.
Publisher
BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC
Subject
