Lack of Acidification in
            <i>Mycobacterium</i>
            Phagosomes Produced by Exclusion of the Vesicular Proton-ATPase

Sturgill-Koszycki, Sheila; Schlesinger, Paul H.; Chakraborty, Parthasarathi; Haddix, Pryce L.; Collins, Helen; Fok, Agnes K.; Allen, Richard D.; Gluck, Stephen L.; Heuser, John E.; Russell, David G.

doi:10.1126/science.8303277

Cited by 1,206 publications

(901 citation statements)

References 23 publications

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“…A similar result has been obtained for C. trachomatis, which also does not reside in an acidic compartment (Heinzen et al, 1996;Schramm et al, 1996). Although the mechanism of how Cpn prevents acidi®cation is not known, the exclusion of the proton pump H -ATPase from the inclusion is the proposed mechanism of C. trachomatis (Heinzen et al, 1996) and M. tuberculosis (Sturgill-Koszycki et al, 1994). The proton pump HATPase is acquired from organelles of the endocytic cascade during maturation.…”

Section: Discussionmentioning

confidence: 99%

Characterization and intracellular trafficking pattern of vacuoles containing Chlamydia pneumoniae in human epithelial cells

1999

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SummaryChlamydiae are obligate intracellular pathogens that reside within a membrane-bound vacuole throughout their developmental cycle. In this study, the intraphagosomal pH of Chlamydia pneumoniae (Cpn) was qualitatively assessed, and the intracellular fate of the pathogen-containing vacuole and its interaction with endocytic organelles in human epithelial cells were analysed using conventional immuno¯uores-cence and confocal microscopy. The pH-sensitive probes acridine orange (AO), LysoTracker (LyT) and DAMP did not accumulate in the bacterial inclusion. In addition, exposure of cells to ba®lomycin A1 (BafA1), a potent acidi®cation inhibitor, did not inhibit or delay chlamydial growth. The chlamydial compartment was not accessible to the¯uid-phase tracer Texas Red (TR)-dextran and did not exhibit any level of staining for the late endosomal marker cation-independent mannose-6-phosphate receptor (Ci-M6PR) or for the lysosomal-associated membrane proteins (LAMP-1 and -2) and CD63. In addition, transferrin receptor (TfR)-enriched vesicles were observed close to Cpn vacuoles, potentially indicating a speci®c translocation of these organelles through the cytoplasm to the vicinity of the vacuole. We conclude that Cpn, like other chlamydial spp., circumvents the host endocytic pathway and inhabits a non-acidic vacuole, which is dissociated from late endosomes and lysosomes, but selectively accumulates early endosomes.

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Section: Discussionmentioning

confidence: 99%

Characterization and intracellular trafficking pattern of vacuoles containing Chlamydia pneumoniae in human epithelial cells

1999

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“…Together with phagosome acidification and lysosomal enzymes, these reactive intermediates constitute the effector mechanism by which macrophages combat resistant intracellular bacteria such as M. tuberculosis. The complexity of host-pathogen interactions is underlined by the recent demonstration that virulent mycobacteria maintain the phagolysosome as an habitable environment by preventing normal vacuole acidification through the exclusion of the vesicular proton-ATPase [50].…”

Section: Immunity To Tuberculosismentioning

confidence: 99%

Host Responses and Antigens Involved in Protective Immunity to Mycobacterium tuberculosis

1997

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Andersen P. Host Responses and Antigens Involved in Protective Immunity to Mycobacterium tuberculosis. Scand J Immunol 1997;45:115-131 Tuberculosis (TB) is the largest single infectious cause of human mortality. The incidence of TB has remained high in most of the developing world and the disease has recently re-emerged as a public health problem in industrialized countries. The development of a new improved TB vaccine is a highly prioritized international research area, which has been further stimulated by the appearance of multi-drug resistant strains of Mycobacterium tuberculosis. The present status of the attempts to characterize the protective immune response to TB will be reviewed with special emphasis on recent progress in the identification and characterization of target molecules recognized by protective cells. This paper will focus on proteins released from live bacteria and discuss their role in the host-pathogen interaction and the ongoing attempts to use these molecules in TB subunit vaccines.

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“…The pathogen inhibits phagosome maturation excluding V-ATPase from the phagosome. 6,7 Bafilomycin A 1 (an inhibitor of V-ATPase) reduces significantly the intracellular killing of phagocytosed M tuberculosis 8 and the production of reactive oxygen species. 8 Both these activities contribute significantly to the antimicrobial activity of the phagocytic cell.…”

Section: Introductionmentioning

confidence: 99%

Human V-ATPase gene can protect or predispose the host to pulmonary tuberculosis

et al. 2009

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Patients (305 patients with pulmonary tuberculosis) and controls (290 household genetically unrelated contacts) were tested by polymerase chain reaction (PCR) for polymorphisms in the intron 15 and the 5 0 untranslated region of the gene coding for the a3 isoform of the human ATPase gene. Diagnosis of pulmonary tuberculosis was based on chest radiography and sputum smear examination and confirmed by PCR and bacteriological tests. Alleles (two at each site) segregated in the form of four haplotype pairs: 13, 14 (very rare), 23, and 24. The 13/24 (double heterozygous) patients were protected against tuberculosis (OR: 0.15; P: 10 À8 ; CI: 0.08-0.3). The 13/13 vs 13/24 and 23/23 vs 23/24 (double homozygous) patients were susceptible to the disease (OR. 5.8; P: 6 Â 10 À7 ; CI: 2.8-11.9; OR: 4.5; P: 5 Â 10 À7 ; CI: 2.5-8.4, respectively).

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Lack of Acidification in Mycobacterium Phagosomes Produced by Exclusion of the Vesicular Proton-ATPase

Cited by 1,206 publications

References 23 publications

Characterization and intracellular trafficking pattern of vacuoles containing Chlamydia pneumoniae in human epithelial cells

Characterization and intracellular trafficking pattern of vacuoles containing Chlamydia pneumoniae in human epithelial cells

Host Responses and Antigens Involved in Protective Immunity to Mycobacterium tuberculosis

Human V-ATPase gene can protect or predispose the host to pulmonary tuberculosis

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