Plant host and sugar alcohol induced exopolysaccharide biosynthesis in the Burkholderia cepacia complex

Bartholdson, S. Josefin; Brown, Alan R.; Mewburn, Ben R.; Clarke, David J.; Fry, Stephen C.; Campopiano, Dominic J.; Govan, John R. W.

doi:10.1099/mic.0.2008/019216-0

Cited by 35 publications

(34 citation statements)

References 31 publications

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“…The fact that mannitol induces EPS in B. multivorans whilst mannose does not is striking given that D-mannose and Dmannitol are each a single reaction away from D-fructose, which itself can promote EPS production (Bartholdson et al, 2008) through the action of D-mannose isomerase and Dmannitol 2-dehydrogenase respectively. Both enzymic activities have previously been reported in Burkholderia (Pseudomonas) cepacia (Allenza et al, 1982;Allenza et al, 1990).…”

Section: Resultsmentioning

confidence: 99%

“…Microarray analysis was performed using custom-made 4644 K microarrays based on the genome of B. multivorans ATCC 17616, using genomic DNA as a common reference. Two test conditions were evaluated: (i) growth on MYEM as the specific mannitol-containing medium that induces EPS production in B. multivorans (Bartholdson et al, 2008) and (ii) growth on NM-YEM as the equivalent mannose-containing agar which does not induce EPS production in B. multivorans (Bartholdson et al, 2008). In both cases, the RiboPure-Bacteria Kit (Ambion) was used to extract total RNA from B. multivorans ATCC 17616 following 16 h growth.…”

Section: Methodsmentioning

confidence: 99%

“…Mannitol is one of several sugars and sugar alcohols that can induce the overproduction of exopolysaccharide (EPS) by members of the BCC, resulting in a profoundly mucoid phenotype (Bartholdson et al, 2008), and MYEM has been widely used in studies defining the biological and structural properties of this EPS. The most common EPS produced by members of the BCC is cepacian (Herasimenka et al, 2007), the biosynthetic enzymes for which are encoded by the bce-I and bce-II gene clusters (Moreira et al, 2003;Ferreira et al, 2010).…”

Section: Introductionmentioning

confidence: 99%

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Growth on mannitol-rich media elicits a genome-wide transcriptional response in Burkholderia multivorans that impacts on multiple virulence traits in an exopolysaccharide-independent manner

et al. 2014

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In common with other members of the Burkholderia cepacia complex (BCC), Burkholderia multivorans is capable of producing exopolysaccharide (EPS) when grown on certain mannitolrich media. The significance of the resulting mucoid phenotype and the genome-wide response to mannitol has never been characterized despite its clinical relevance following the approval of a dried-powder preparation of mannitol as an inhaled osmolyte therapy for cystic fibrosis (CF) patients. In the present study we defined the transcriptional response of B. multivorans ATCC 17616, a model genome-sequenced strain of environmental origin, to growth on mannitol-rich yeast extract media (MYEM). EPS-dependent and -independent impact of MYEM on virulenceassociated traits was assessed in both strain ATCC 17616 and the CF isolate B. multivorans C1576. Our studies revealed a significant transcriptional response to MYEM encompassing approximately 23 % of predicted genes within the genome. Strikingly, this transcriptional response identified that EPS induction occurs in ATCC 17616 without the upregulation of the bce-I and bce-II EPS gene clusters, despite their pivotal role in EPS biosynthesis. Of approximately 20 differentially expressed putative virulence factors, 16 exhibited upregulation including flagella, ornibactin, oxidative stress proteins and phospholipases. MYEM-grown B. multivorans also exhibited enhanced motility, biofilm formation and epithelial cell invasion. In contrast to these potential virulence enhancements, MYEM-grown B. multivorans C1576 showed attenuated virulence in the Galleria mellonella infection model. All of the observed phenotypic responses occurred independently of EPS production, highlighting the profound impact that mannitol-based growth has on the physiology and virulence of B. multivorans.

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Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Growth on mannitol-rich media elicits a genome-wide transcriptional response in Burkholderia multivorans that impacts on multiple virulence traits in an exopolysaccharide-independent manner

et al. 2014

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“…The role of EPSs in plant-Burkholderia interaction is not well documented. However, onion tissues induce EPS production from Burkholderia, probably through the carbohydrates produced by the onion (Bartholdson et al, 2008). In some plant-bacterial associations (for example, Rhizobium), EPSs are involved in the attachment of bacteria to the roots.…”

Section: Phase Variation and Adaptation In B Ambifaria L Vial Et Almentioning

confidence: 99%

Phase variation has a role in Burkholderia ambifaria niche adaptation

et al. 2009

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Members of the Burkholderia cepacia complex (Bcc), such as B. ambifaria, are effective biocontrol strains, for instance, as plant growth-promoting bacteria; however, Bcc isolates can also cause severe respiratory infections in people suffering from cystic fibrosis (CF). No distinction is known between isolates from environmental and human origins, suggesting that the natural environment is a potential source of infectious Bcc species. While investigating the presence and role of phase variation in B. ambifaria HSJ1, an isolate recovered from a CF patient, we identified stable variants that arose spontaneously irrespective of the culture conditions. Phenotypic and proteomic approaches revealed that the transition from wild-type to variant types affects the expression of several putative virulence factors. By using four different infection models (Drosophila melanogaster, Galleria mellonella, macrophages and Dictyostelium discoideum), we showed that the wild-type was more virulent than the variant. It may be noted that the variant showed reduced replication in a human monocyte cell line when compared with the wild-type. On the other hand, the variant of isolate HSJ1 was more competitive in colonizing plant roots than the wild-type. Furthermore, we observed that only clinical B. ambifaria isolates generated phase variants, and that these variants showed the same phenotypes as observed with the HSJ1 variant. Finally, we determined that environmental B. ambifaria isolates showed traits that were characteristic of variants derived from clinical isolates. Our study therefore suggest that B. ambifaria uses phase variation to adapt to drastically different environments: the lung of patients with CF or the rhizosphere.

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“…If EPS produced by Bcc can both neutralize oxidative species and interact with non-oxidative antimicrobial peptides, then it might be an important virulence factor, since it would leave neutrophils without means to clear the offending bacteria. Against the importance of EPS in virulence is the study of Bartholdson and colleagues where Bcc clinical and environmental strains were assessed for EPS production and onion tissue maceration ability (Bartholdson et al, 2008). According to their results no correlation could be established between EPS production and onion tissue maceration.…”

Section: Cepacian As a Virulence Factormentioning

confidence: 99%

Mechanisms Controlling the Expression of the Exopolysaccharide of Burkholderia and Role in Niche Adaptation

Ferreira¹,

Silva²,

Moreira³

2011

Biotechnology of Biopolymers

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Plant host and sugar alcohol induced exopolysaccharide biosynthesis in the Burkholderia cepacia complex

Cited by 35 publications

References 31 publications

Growth on mannitol-rich media elicits a genome-wide transcriptional response in Burkholderia multivorans that impacts on multiple virulence traits in an exopolysaccharide-independent manner

Growth on mannitol-rich media elicits a genome-wide transcriptional response in Burkholderia multivorans that impacts on multiple virulence traits in an exopolysaccharide-independent manner

Phase variation has a role in Burkholderia ambifaria niche adaptation

Mechanisms Controlling the Expression of the Exopolysaccharide of Burkholderia and Role in Niche Adaptation

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