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12 results on '"Brosch R"'

1. Colonization with Helicobacter is concomitant with modified gut microbiota and drastic failure of the immune control of Mycobacterium tuberculosis

Author

Majlessi, L, Sayes, F, Bureau, J-F, Pawlik, A, Michel, V, Jouvion, G, Huerre, M, Severgnini, M, Consolandi, C, Peano, C, Brosch, R, Touati, E, and Leclerc, C

Abstract

Epidemiological and experimental observations suggest that chronic microbial colonization can impact the immune control of other unrelated pathogens contracted in a concomitant or sequential manner. Possible interactions between Mycobacterium tuberculosis infection and persistence of other bacteria have scarcely been investigated. Here we demonstrated that natural colonization of the digestive tract with Helicobacter hepaticus in mice is concomitant with modification of the gut microbiota, subclinical inflammation, and drastic impairment of immune control of the growth of subsequently administered M. tuberculosis, which results in severe lung tissue injury. Our results provided insights upon the fact that this prior H. hepaticus colonization leads to failures in the mechanisms that could prevent the otherwise balanced cross-talk between M. tuberculosis and the immune system. Such disequilibrium ultimately leads to the inhibition of control of mycobacterial growth, outbreak of inflammation, and lung pathology. Among the dysregulated immune signatures, we noticed a correlation between the detrimental lung injury and the accumulation of activated T-lymphocytes. Our findings suggest that the impact of prior Helicobacter spp. colonization and subsequent M. tuberculosis parasitism might be greater than previously thought, which is a key point given that both species are among the most frequent invasive bacteria in human populations.

Published
2017
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2. Colonization with Helicobacteris concomitant with modified gut microbiota and drastic failure of the immune control of Mycobacterium tuberculosis

Author

Majlessi, L., Sayes, F., Bureau, J-F, Pawlik, A., Michel, V., Jouvion, G., Huerre, M., Severgnini, M., Consolandi, C., Peano, C., Brosch, R., Touati, E., and Leclerc, C.

Abstract

Epidemiological and experimental observations suggest that chronic microbial colonization can impact the immune control of other unrelated pathogens contracted in a concomitant or sequential manner. Possible interactions between Mycobacterium tuberculosisinfection and persistence of other bacteria have scarcely been investigated. Here we demonstrated that natural colonization of the digestive tract with Helicobacter hepaticusin mice is concomitant with modification of the gut microbiota, subclinical inflammation, and drastic impairment of immune control of the growth of subsequently administered M. tuberculosis, which results in severe lung tissue injury. Our results provided insights upon the fact that this prior H. hepaticuscolonization leads to failures in the mechanisms that could prevent the otherwise balanced cross-talk between M. tuberculosisand the immune system. Such disequilibrium ultimately leads to the inhibition of control of mycobacterial growth, outbreak of inflammation, and lung pathology. Among the dysregulated immune signatures, we noticed a correlation between the detrimental lung injury and the accumulation of activated T-lymphocytes. Our findings suggest that the impact of prior Helicobacterspp. colonization and subsequent M. tuberculosisparasitism might be greater than previously thought, which is a key point given that both species are among the most frequent invasive bacteria in human populations.

Published
2017
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3. Genomics of Mycobacterium bovis

Author

Gordon, S.V., Eiglmeier, K., Garnier, T., Brosch, R., Parkhill, J., Barrell, B., Cole, S.T., and Hewinson, R.G.

Abstract

The imminent completion of the genome sequence of Mycobacterium boviswill reveal the genetic blueprint for this most successful pathogen. Comparative analysis with the genome sequences of M. tuberculosisand M. bovisBCG promises to expose the genetic basis for the phenotypic differences between the tubercle bacilli, offering unparalleled insight into the virulence factors of the M. tuberculosiscomplex. Initial analysis of the sequence data has already revealed a novel deletion from M. bovis, as well as identifying variation in members of the PPE family of proteins. As the study of bacterial pathogenicity enters the postgenomic phase, the genome sequence of M. bovispromises to serve as a cornerstone of mycobacterial genetics.

Published
2001
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5. Genomic analysis reveals variation between Mycobacterium tuberculosis H37Rv and the attenuated M. tuberculosis H37Ra strain.

Author

Brosch, R, Philipp, W J, Stavropoulos, E, Colston, M J, Cole, S T, and Gordon, S V

Abstract

Mycobacterium tuberculosis H37Ra is an attenuated tubercle bacillus closely related to the virulent type strain M. tuberculosis H37Rv. Despite extensive study, the reason for the decreased virulence of M. tuberculosis H37Ra has not been determined. A genomic approach was therefore initiated to identify genetic differences between M. tuberculosis H37Rv and M. tuberculosis H37Ra as a means of pinpointing the attenuating mutation(s). Digestion with the rare-cutting restriction endonuclease DraI revealed two polymorphisms between the strains: a 480-kb fragment in M. tuberculosis H37Rv was replaced by two fragments of 220 and 260 kb in M. tuberculosis H37Ra, while there was a approximately 7.9-kb DraI fragment in M. tuberculosis H37Ra that had no counterpart in M. tuberculosis H37Rv. As the M. tuberculosis insertion sequence IS6110 contains a single DraI restriction site, it was considered possible that these polymorphisms were the result of IS6110 transposition events in M. tuberculosis H37Ra, events that may have inactivated virulence genes. The 7.9-kb polymorphism was found to be due to the presence of the previously described H37Rv RvD2 deletion in M. tuberculosis H37Ra, with sequence analysis suggesting an IS6110-mediated deletion mechanism for loss of RvD2. Three other IS6110-catalyzed deletions from the M. tuberculosis H37Rv chromosome (RvD3 to RvD5) were also identified, suggesting that this mechanism plays an important role in genome plasticity in the tubercle bacilli. Comparative mapping and sequencing revealed that the 480-kb polymorphism was due to an IS6110 insertion in M. tuberculosis H37Ra near oriC. Complementation of M. tuberculosis H37Ra with a 2.9-kb restriction fragment from M. tuberculosis H37Rv that encompassed the IS6110 insertion did not increase the survival of recombinant M. tuberculosis H37Ra in mice. In conclusion, this study describes the presence and mechanisms of genomic variation between M. tuberculosis H37Ra and M. tuberculosis H37Rv, although the role that they play in the attenuation of M. tuberculosis H37Ra is unclear.

Published
1999

6. Analysis of the proteome of Mycobacterium tuberculosis in silico

Author

Tekaia, F., Gordon, S. V., Garnier, T., Brosch, R., Barrell, B. G., and Cole, S. T.

Abstract

Novel bioinformatics routines have been used to provide a more detailed definition of the proteome of Mycobacterium tuberculosis H37Rv. Over half of the current proteins result from gene duplication or domain shuffling events while one-sixth show no similarity to polypeptides described in other organisms. Prominent among the genes that appear to have been duplicated on numerous occasions are those involved in fatty acid metabolism, regulation of gene expression, and the unusually glycine-rich PE and PPE proteins. Protein similarity analysis, coupled with inspection of the genetic neighbourhood, was used to explore possible functional relatedness. This uncovered four large mce operons whose proteins may mediate initial interactions between the tubercle bacillus and host cells, together with a cluster of genes that might encode components of a structure required for secretion of ESAT-6 like proteins. Close linkage of the mmpL genes, encoding large membrane proteins, with those required for fatty acid metabolism suggests involvement in lipid transport. Compared to free-living bacteria, M. tuberculosis has a significantly smaller transport protein repertoire and this may reflect its intracellular lifestyle. Copyright 1999 Harcourt Publishers Ltd

Published
1999
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8. Comparison of microscopic and cultural findings in the diagnosis ofGardnerella vaginalis infection

Author

Milatovic, D., Machka, K., Brosch, R. V., Wallner, H. J., and Braveny, I.

Abstract

The diagnosis ofGardnerella vaginalis infection on the basis of microscopic and cultural findings was compared. A total of 340 specimens of vaginal secretion were Gram stained and plated on a medium selective forGardnerella vaginalis. Positive culture was obtained in 165 cases. Microscopy was unequivocally positive in 95, doubtful in 58 and negative in 187. Positive microscopy was confirmed by culture in 99%. On the other hand, 21% of (he negative microscopy results gave a false negative diagnosis. Specimens for which microscopy was doubtful were culture positive in 53% of the cases, including 12% with heavy growth. Thus, positive microscopy proved to be sufficient for a reliable diagnosis ofGardnerella vaginalis infection. However, in specimens with negative or doubtful microscopic findings, additional culture is recommended.

Published
1982
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9. Use of a Mycobacterium tuberculosis H37Rv bacterial artificial chromosome library for genome mapping, sequencing, and comparative genomics.

Author

Brosch, R, Gordon, S V, Billault, A, Garnier, T, Eiglmeier, K, Soravito, C, Barrell, B G, and Cole, S T

Abstract

The bacterial artificial chromosome (BAC) cloning system is capable of stably propagating large, complex DNA inserts in Escherichia coli. As part of the Mycobacterium tuberculosis H37Rv genome sequencing project, a BAC library was constructed in the pBeloBAC11 vector and used for genome mapping, confirmation of sequence assembly, and sequencing. The library contains about 5,000 BAC clones, with inserts ranging in size from 25 to 104 kb, representing theoretically a 70-fold coverage of the M. tuberculosis genome (4.4 Mb). A total of 840 sequences from the T7 and SP6 termini of 420 BACs were determined and compared to those of a partial genomic database. These sequences showed excellent correlation between the estimated sizes and positions of the BAC clones and the sizes and positions of previously sequenced cosmids and the resulting contigs. Many BAC clones represent linking clones between sequenced cosmids, allowing full coverage of the H37Rv chromosome, and they are now being shotgun sequenced in the framework of the H37Rv sequencing project. Also, no chimeric, deleted, or rearranged BAC clones were detected, which was of major importance for the correct mapping and assembly of the H37Rv sequence. The minimal overlapping set contains 68 unique BAC clones and spans the whole H37Rv chromosome with the exception of a single gap of approximately 150 kb. As a postgenomic application, the canonical BAC set was used in a comparative study to reveal chromosomal polymorphisms between M. tuberculosis, M. bovis, and M. bovis BCG Pasteur, and a novel 12.7-kb segment present in M. tuberculosis but absent from M. bovis and M. bovis BCG was characterized. This region contains a set of genes whose products show low similarity to proteins involved in polysaccharide biosynthesis. The H37Rv BAC library therefore provides us with a powerful tool both for the generation and confirmation of sequence data as well as for comparative genomics and other postgenomic applications. It represents a major resource for present and future M. tuberculosis research projects.

Published
1998

11. Bücherschau

Author

Collatz, L., Kloß, H., Nitschmann, G., Ernst, G., Ortmayer, R., Wirtz, K., Stöcker, H., Brosch, R., Keul, W., Schlünder, E., Scheuch, G., and Romberg, H.

Abstract

Ohne Zusammenfassung:

Published
1971
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