Functional analysis of the ClpATPase ClpA of Brucella suis, and persistence of a knockout mutant in BALB/c mice The GenBank accession number for the sequence reported in this paper is AJ224881.

Ekaza, Euloge; Guilloteau, Laurence; Teyssier, Jacques; Liautard, Jean‐Pierre; Köhler, Stephan

doi:10.1099/00221287-146-7-1605

Cited by 37 publications

(27 citation statements)

References 54 publications

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“…Statistical analysis showed that, based on the assumption that B. suis 1330 possesses Ϸ3,200 genes, the maximal probability to pick up a gene at least once was 96.5%. The resulting mutants were screened for their participation in virulence by infection of the macrophage cell line THP-1, as described (15,18), and by individual analysis of intracellular multiplication by using fluorescence microscopy, as described in Materials and Methods. The disrupted genes were identified by sequencing the chromosomal DNA flanking Tn5 and homology search by using BLAST. One hundred thirty-one mutants unable to multiply in THP-1 cells were selected.…”

Section: Resultsmentioning

confidence: 99%

“…Wells containing attenuated mutants showed no intracellular fluorescence, allowing their rapid identification. Attenuation of the selected mutants was validated in THP-1 infection experiments performed in duplicates in 24-well plates where the number of intracellular bacteria was determined at 90 min and 7, 24, and 48 h postinfection (15).…”

Section: Screening Of B Suis Tn5 Mutants For Attenuation In Human Thmentioning

confidence: 99%

“…Macrophage-like THP-1 cells were infected by individual B. suis mutants and the acceptor strain as a control at a multiplicity of infection of 50 in 96-well plates (15). At 24 and 48 h postinfection, the plates were examined by using fluorescence microscopy.…”

Section: Screening Of B Suis Tn5 Mutants For Attenuation In Human Thmentioning

confidence: 99%

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The analysis of the intramacrophagic virulome ofBrucella suisdeciphers the environment encountered by the pathogen inside the macrophage host cell

Köhler

Foulongne

Ouahrani‐Bettache

et al. 2002

Proc. Natl. Acad. Sci. U.S.A.

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The pathogen Brucella suis resides and multiplies within a phagocytic vacuole of its host cell, the macrophage. The resulting complex relationship has been investigated by the analysis of the set of genes required for virulence, which we call intramacrophagic virulome. Ten thousand two hundred and seventy-two miniTn5 mutants of B. suis constitutively expressing gfp were screened by fluorescence microscopy for lack of intracellular multiplication in human macrophages. One hundred thirty-one such mutants affected in 59 different genes could be isolated, and a function was ascribed to 53 of them. We identified genes involved in (i) global adaptation to the intracellular environment, (ii) amino acid, and (iii) nucleotide synthesis, (iv) sugar metabolism, (v) oxidoreduction, (vi) nitrogen metabolism, (vii) regulation, (viii) disulphide bond formation, and (ix) lipopolysaccharide biosynthesis. Results led to the conclusion that the replicative compartment of B. suis is poor in nutrients and characterized by low oxygen tension, and that nitrate may be used for anaerobic respiration. Intramacrophagic virulome analysis hence allowed the description of the nature of the replicative vacuole of the pathogen in the macrophage and extended our understanding of the niche in which B. suis resides. We propose calling this specific compartment ''brucellosome.'' I nteractions between microorganisms and their hosts extend from acute infections to persistent infectious diseases or symbiosis. This type of interaction can result from a million years of coevolution and coadaptation of the two organisms. Thus, the biology of the interaction can be read, at least partially, in the genome of the microorganism. In the specific case of pathogenic bacteria, deciphering of the genes involved in the interaction and analysis of their functions will shed light on the environment encountered by the parasite in the host and will contribute to the understanding of the complex relationship between two organisms. As a name for the whole set of genes required for virulence, i.e., involved in the invasion of the host by the bacteria and their adaptation to the environment provided by this host, we propose virulome. In this study, we will perform a thorough analysis of the intramacrophagic virulome of Brucella suis.Brucella spp. is an ␣ proteobacteriaceae that induces a persistent disease in some mammals, resulting in abortion. In humans, initial septicemia may be followed by a subacute or a chronic infection (1). Brucella spp. is phyletically related as well to plant symbionts such as rhizobiaceae, as to rickettsiae, which generate an acute infectious disease (2). In terms of virulence, brucellae occupy an intermediate position where the adaptation results in a mild disease that allows them to persist in mammal hosts. It is usually considered that, for a facultative intracellular bacterium such as Brucella spp., which multiplies in trophoblasts or macrophages (3), one of the challenges is to rapidly adapt to the intracellular settings but also to resis...

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Section: Resultsmentioning

confidence: 99%

Section: Screening Of B Suis Tn5 Mutants For Attenuation In Human Thmentioning

confidence: 99%

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The analysis of the intramacrophagic virulome ofBrucella suisdeciphers the environment encountered by the pathogen inside the macrophage host cell

Köhler

Foulongne

Ouahrani‐Bettache

et al. 2002

Proc. Natl. Acad. Sci. U.S.A.

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235

234

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“…But for the absence of an O-PS linked to the remaining LPS molecule, it can be predicted that not all these mutants are equivalent and they can be hypothetically grouped as follows: (i), R mutants have a complete lipid A-core plus a cytoplasmic O-PS, the incorporation of which to the LPS is blocked (at least the wzm/wzt and possibly the WaaL mutants); (ii), R mutants have a complete lipid A-core but no O-PS (mutants in wb** glycosyltransferases, in wecA, and in genes coding for enzymes necessary to synthesise some precursors, such as manBOAg, gmd and per) and (iii), R mutants have progressive deficiencies in the core and that may or may not accumulate cytoplasmic O-PS (mutants in some wa** genes and in some precursor genes such as manBcore). Mutants of each of these three groups have in fact been described, and the question then arises as to what extent they are equivalent in attenuation and immunizing abilities (27,28,29,30). Numerous outer and inner membranes, cytoplasmic, and periplasmic antigenic proteins have also been characterized.…”

Section: Antigenic Compositionmentioning

confidence: 99%

Brucellosis Vaccines: An Overview

Reza¹,

Kazemi²,

Fatemeh³

et al. 2012

Zoonosis

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“…In the construct containing the 3Ј half of clpB, a 400-bp EcoRV-Bsu15I fragment located within the open reading frame encoding ClpB was replaced by the kanamycin resistance gene from pUC4K. The whole insert was blunted and recloned into the Brucella suicide vector pCVD442 (3) prior to electroporation of B. suis (4). clpB inactivation by double recombination was confirmed by Southern blot analysis (not shown) and by Western blot using polyclonal anti-E. coli ClpB cross-reacting with the homologous protein of B. suis (Fig.…”

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Characterization of Brucella suis clpB and clpAB Mutants and Participation of the Genes in Stress Responses

et al. 2001

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Pathogens often encounter stressful conditions inside their hosts. In the attempt to characterize the stress response in Brucella suis, a gene highly homologous to Escherichia coli clpB was isolated from Brucella suis, and the deduced amino acid sequence showed features typical of the ClpB ATPase family of stress response proteins. Under high-temperature stress conditions, ClpB of B. suis was induced, and an isogenic B. suis clpB mutant showed increased sensitivity to high temperature, but also to ethanol stress and acid pH. The effects were reversible by complementation. Simultaneous inactivation of clpA and clpB resulted in a mutant that was sensitive to oxidative stress. In B. suis expressing gfp, ClpA but not ClpB participated in degradation of the green fluorescent protein at 42°C. We concluded that ClpB was responsible for tolerance to several stresses and that the lethality caused by harsh environmental conditions may have similar molecular origins.Brucella suis is a gram-negative, facultative intracellular bacterium and one of the causative agents of brucellosis in humans and animals (2). Oral infection, which is considered a natural route of infection by brucellae, and localization of the bacteria inside the host cell phagosome most likely expose the pathogen to various stresses. In response to environmental stress conditions such as elevated temperatures, variation in pH, and starvation, a certain number of proteins are induced or repressed in Brucella spp., among which are the GroE and DnaK heat shock proteins (12,16,24). In intracellular brucellae, which encounter stressful conditions such as acidic pH (23) and possibly oxidative stress due to the presence of oxygen radicals, the known stress proteins GroEL and DnaK are induced during infection, and DnaK is essential for multiplication of B. suis in macrophage-like cells (12,17). The HtrA (high-temperature requirement) stress protein is involved in high-level spleen colonization with Brucella abortus in mice (5). Several other stress response proteins including ClpA, ClpB, ClpC, and ClpX, are members of a family of proteins called the Clp ATPases (HSP100 proteins), represented in prokaryotes and eukaryotes with a high degree of conservation (28). Clp stress proteins can be induced by high temperature, oxidative stress, high salt or ethanol concentration, and iron limitation (14,26,28). In addition to being sensitive to various stresses, Listeria monocytogenes clpC mutants are attenuated for virulence in mice (26).Our article describes the isolation and characterization of a B. suis gene encoding a homolog of the ClpB stress response proteins. An isogenic clpB mutant and the complemented strain were constructed and compared with the wild type and a clpA mutant (4) for survival at high temperature, at different ethanol concentrations, at acid pH, and in the presence of hydrogen peroxide. In addition, the effect of hydrogen peroxide on a clpAB double mutant was studied, and the possible participation of ClpA and ClpB in protein degradation was analyzed....

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Functional analysis of the ClpATPase ClpA of Brucella suis, and persistence of a knockout mutant in BALB/c mice The GenBank accession number for the sequence reported in this paper is AJ224881.

Cited by 37 publications

References 54 publications

The analysis of the intramacrophagic virulome ofBrucella suisdeciphers the environment encountered by the pathogen inside the macrophage host cell

The analysis of the intramacrophagic virulome ofBrucella suisdeciphers the environment encountered by the pathogen inside the macrophage host cell

Brucellosis Vaccines: An Overview

Characterization of Brucella suis clpB and clpAB Mutants and Participation of the Genes in Stress Responses

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