Interaction of cblA/adhesin-positive Burkholderia cepacia with squamous epithelium

A highly transmissible strain of Burkholderia cepacia from genomovar III carries the cable pilin gene, expresses the 22 kDa adhesin (cblA +ve/Adh +ve), binds to cytokeratin 13 (CK13) and is invasive. CK13 is expressed abundantly in the airway epithelia of cystic fibrosis (CF) patients. We have now investigated whether binding of cblA +ve/Adh +ve B. cepacia to CK13 potentiates bacterial invasion and epithelial damage using bronchial epithelial cell cultures differentiated into either squamous (CK13-enriched) or mucociliary (CK13-deficient) epithelia. Three different B. cepacia isolates (cblA +ve/Adh +ve, cblA +ve/Adh -ve and cblA -ve/Adh -ve) showed minimal binding to mucociliary cultures, and did not invade or cause cell damage. In contrast, the cblA +ve/Adh +ve isolate, but not others, bound to CK13-expressing cells in squamous cultures, caused cytotoxicity and stimulated IL-8 release within 2 h. By 24 h, this isolate invaded and migrated across the squamous culture, causing moderate to severe epithelial damage. A specific antiadhesin antibody, which blocked the initial binding of the cblA +ve/Adh +ve isolate to CK13, significantly inhibited all the pathologic effects. Transmission electron microscopy of squamous cultures incubated with the cblA +ve/Adh +ve isolate, revealed bacteria on the surface surrounded by filopodia by 2 h, and within the cells in membrane-bound vesicles by 24 h. Bacteria were also observed free in the cytoplasm, surrounded by intermediate filaments containing CK13. These findings suggest that binding of B. cepacia to CK13 is an important initial event and that it promotes bacterial invasion and epithelial damage.     

Identification and onion pathogenicity of Burkholderia cepacia complex isolates from the onion rhizosphere and onion field soil

Burkholderia cepacia complex strains are genetically related but phenotypically diverse organisms that are important opportunistic pathogens in patients with cystic fibrosis (CF,) as well as pathogens of onion and banana, colonizers of the rhizospheres of many plant species, and common inhabitants of bulk soil. Genotypic identification and pathogenicity characterization were performed on B. cepacia complex isolates from the rhizosphere of onion and organic soils in Michigan. A total of 3,798 putative B. cepacia complex isolates were recovered on Pseudomonas cepacia azelaic acid tryptamine and trypan blue tetracycline semiselective media during the 2004 growing season from six commercial onion fields located in two counties in Michigan. Putative B. cepacia complex isolates were identified by hybridization to a 16S rRNA gene probe, followed by duplex PCR using primers targeted to the 16S rRNA gene and recA sequences and restriction fragment length polymorphism analysis of the recA sequence. A total of 1,290 isolates, 980 rhizosphere and 310 soil isolates, were assigned to the species B. cepacia (160), B. cenocepacia (480), B. ambifaria (623), and B. pyrrocinia (27). The majority of isolates identified as B. cepacia (85%), B. cenocepacia (90%), and B. ambifaria (76%) were pathogenic in a detached onion bulb scale assay and caused symptoms of water soaking, maceration, and/or necrosis. A phylogenetic analysis of recA sequences from representative B. cepacia complex type and panel strains, along with isolates collected in this study, revealed that the B. cenocepacia isolates associated with onion grouped within the III-B lineage and that some strains were closely related to strain AU1054, which was isolated from a CF patient. This study revealed that multiple B. cepacia complex species colonize the onion rhizosphere and have the potential to cause sour skin rot disease of onion. In addition, the onion rhizosphere is a natural habitat and a potential environmental source of B. cenocepacia.     

Diversity of Burkholderia isolates from woodland rhizosphere environments

AIMS: Determination of genetic diversity among UK Burkholderia cepacia isolates from various environmental niches, principally woodland tree rhizospheres and onions. METHODS AND RESULTS: Genus determination was made using polymerase chain reaction (PCR) amplification and fatty acid methyl ester profiling. Genetic diversity was investigated by repetitive sequence genetic PCR fingerprinting. Several onion isolates were similar to clinical isolates but others were diverse. Some environmental isolates were possibly synonymous with B. cepacia and B. gladioli but most from woodland rhizospheres were distinct and clustered together. The 16S rRNA genes of representatives from these clusters were PCR amplified, sequenced and phylogenetically compared with all known Burkholderia and related species. This revealed that the rhizospheric isolates had closest affinity with Burkholderia spp. with known bioremediative and biocontrol capabilities and were unrelated to taxa comprising plant or human pathogenic strains. CONCLUSIONS: All of the analyses investigated revealed that environmental and onion isolates of B. cepacia complex bacteria are genetically diverse but that woodland rhizospheric isolates are related to each other and unrelated to plant or human pathogenic strains. SIGNIFICANCE AND IMPACT OF THE STUDY: Woodland rhizospheric isolates of B. cepacia are potentially good candidates for use in bioremediation and biocontrol, as they appear distinct from plant or human pathogenic strains.     

Cable (cbl) type II pili of cystic fibrosis-associated Burkholderia (Pseudomonas) cepacia: nucleotide sequence of the cblA major subunit pilin gene and novel morphology of the assembled appendage fibers.

Previous studies have shown that appendage pili of Burkholderia cepacia strains isolated from patients with cystic fibrosis (CF) at The Hospital for Sick Children, Toronto, Canada, mediate adherence to mucus glycoproteins and also enhance adherence to epithelial cells. The specific pilin-associated adhesin molecule is a 22-kDa protein. In the present study we purified the major subunit pilin (17 kDa) and immunolocalized it to peritrichously arranged pili. On the basis of their novel morphological appearance as giant intertwined fibers, we refer to them as cable (Cbl) pili. Using an oligonucleotide probe corresponding to regions of the N-terminal amino acid sequence of the pilin subunit, we detected the encoding cblA gene in a chromosomal DNA library. Sequencing revealed this structural gene to be 555 bp in length, encoding a leader sequence of 19 amino acids, a cleavage site between the alanine at position 19 and the valine at position 20, and a mature pilin sequence of 165 amino acids. The calculated molecular mass is 17.3 kDa. Hydrophobic plus apolar amino acids account for 60% of the total residues. The pilin exhibits some similarities in its amino acid sequence to colonization factor antigen I and CS1 fimbriae of Escherichia coli. With the cblA gene used as a probe, hybridization assays of 59 independent isolates, including those from several geographically separated CF centers, plus environmental and clinical (non-CF) strains, gave positive results with all of the 15 CF-associated B. cepacia isolates from Toronto, plus a single strain from one other CF center (Jackson, Mississippi). The cblA gene is the first pilin subunit gene of B. cepacia to be identified.     

Burkholderia cenocepacia phage BcepMu and a family of Mu-like phages encoding potential pathogenesis factors

We have isolated BcepMu, a Mu-like bacteriophage whose host range includes human pathogenic Burkholderia cenocepacia (formally B. cepacia genomovar III) isolates, and determined its complete 36748 bp genomic sequence. Like enteric bacteriophage Mu, the BcepMu genomic DNA is flanked by variable host sequences, a result of transposon-mediated replication. The BcepMu genome encodes 53 proteins, including capsid assembly components related to those of Mu, and tail sheath and tube proteins related to those of bacteriophage P2. Seventeen of the BcepMu genes were demonstrated to encode homotypic interacting domains by using a cI fusion system. Most BcepMu genes have close homologs to prophage elements present in the two published Salmonella typhi genomes, and in the database sequences of Photorhabdus luminescens, and Chromobacterium violaceum. These prophage elements, designated SalMu, PhotoMu and ChromoMu, respectively, are collinear with BcepMu through nearly their entire lengths and show only limited mosaicism, despite the divergent characters of their hosts. The BcepMu family of Mu-like phages has a number of notable differences from Mu. Most significantly, the critical left end region of BcepMu is inverted with respect to Mu, and the BcepMu family of transposases is clearly of a distinct lineage with different molecular requirements at the transposon ends. Interestingly, a survey of 33 B.cepacia complex strains indicated that the BcepMu prophage is widespread in human pathogenic B.cenocepacia ET12 lineage isolates, but not in isolates from the PHDC or Midwest lineages. Identified members of the BcepMu family all contain a gene possibly involved in bacterial pathogenicity, a homolog of the type-two-secretion component exeA, but only BcepMu also carries a lipopolysaccharide modification acyltransferase which may also contribute a pathogenicity factor.     

Detection of cultured and uncultured Burkholderia cepacia complex bacteria naturally occurring in the maize rhizosphere

The species composition of a Burkholderia cepacia complex population naturally occurring in the maize rhizosphere was investigated by using both culture-dependent and culture-independent methods. B. cepacia complex isolates were recovered from maize root slurry on the two selective media Pseudomonas cepacia azelaic acid tryptamine (PCAT) and trypan blue tetracycline (TB-T) and subjected to identification by a combination of restriction fragment length polymorphism (RFLP) analysis and species-specific polymerase chain reaction (PCR) tests of the recA gene. DNA extracted directly from root slurry was examined by means of nested PCR to amplify recA gene with species-specific B. cepacia complex primers and to obtain a library of PCR amplified recA genes. Using the culture-dependent method the species Burkholderia cepacia, Burkholderia cenocepacia, Burkholderia ambifaria and Burkholderia pyrrocinia were identified, whereas using the culture-independent method also the species Burkholderia vietnamiensis was detected. The latter method also allowed us to highlight a higher diversity within the B. cenocepacia species. In fact, by using the culture-independent method the species B. cenocepacia recA lineages IIIA and IIID besides B. cenocepacia recA lineage IIIB were detected. Moreover, higher heterogeneity of recA RFLP patterns was observed among clones assigned to the species B. cenocepacia than among B. cenocepacia isolates from selective media.     

Burkholderia cepacia complex infection in a cohort of Italian patients with cystic fibrosis

The aims of this study were to detect Burkholderia cepacia complex (Bcc) strains in a cohort of Cystic Fibrosis patients (n=276) and to characterize Bcc isolates by molecular techniques. The results showed that 11.23% of patients were infected by Bcc. Burkholderia cenocepacia lineage III-A was the most prevalent species (64.3%) and, of these, 10% was cblA positive and 50% esmR positive. Less than half of the strains were sensitive to ceftazidime, meropenem, piperacillin tazobactam, and trimethoprim-sulfamethoxazole. About half of the strains (41%) had homogeneous profiles, suggesting cross-transmission. The infection by B. cenocepacia was associated to a high rate of mortality (p=0.01).     

Suppression-subtractive hybridisation reveals variations in gene distribution amongst the<Emphasis Type="Italic"> Burkholderia cepacia</Emphasis> complex,including the presence in some strains of a genomic island containing putative polysaccharide production genes

Some strains of the Burkholderia cepacia complex, including the ET12 lineage, have been implicated in epidemic spread amongst cystic fibrosis (CF) patients. Suppression-subtractive hybridisation was used to identify genomic regions within strain J2315 (ET12 lineage; genomovar IIIA) that were absent from a non-transmissible genomovar IIIB strain. Sequence data from 15 subtracted clones were used to interrogate the genome sequence of strain J2315 and identify genomic regions incorporating the subtracted sequences. Many of the genomic regions displayed abnormally low GC content and similarity to sequences implicated in gene transfer. The distribution of three subtracted regions amongst members of the B. cepacia complex varied. A large cluster of genes with strong sequence similarity to capsular production genes from Burkholderia mallei and other bacterial pathogens was identified. This genomic island was detected in some but not all representatives of genomovar IIIA, two out of four genomovar I strains, and one of two strains of Burkholderia multivorans, but was not detected in Burkholderia stabilis, Burkholderia vietnamiensis, genomovar VI or Burkholderia. ambifaria. The polysaccharide production gene cluster of strain J2315 carries an IS 407-like sequence within the gene similar to B. mallei wcbO that is lacking in other ET12 isolates. Genes from this cluster are expressed during exponential growth in broth.     

Pseudomonas cepacia colonization and infection in intensive care units.

Pseudomonas cepacia has become a prominent epidemic nosocomial pathogen over the past 15 years. Between December 1982 and September 1983 it was isolated from 29 patients in two intensive care units (ICUs) at one hospital. Twelve infections--five bacteremias, four pneumonias and three urinary tract infections--occurred. Most of the isolates (25/29) were from the respiratory tract, and most (23/29) had the same antibiogram as the only environmental isolate, which was cultured from a contaminated ventilator thermometer, a previously unrecognized source of nosocomial infection. The ventilator thermometers were calibrated in a bath whose water had not been changed for months and contained P. cepacia. Despite elimination of this reservoir, P. cepacia was eradicated from the ICUs only after intensive infection control efforts were instituted.     

Involvement of a plasmid-encoded type IV secretion system in the plant tissue watersoaking phenotype of Burkholderia cenocepacia

Burkholderia cenocepacia strain K56-2, a representative of the Burkholderia cepacia complex, is part of the epidemic and clinically problematic ET12 lineage. The strain produced plant tissue watersoaking (ptw) on onion tissue, which is a plant disease-associated trait. Using plasposon mutagenesis, mutants in the ptw phenotype were generated. The translated sequence of a disrupted gene (ptwD4) from a ptw-negative mutant showed homology to VirD4-like proteins. Analysis of the region proximal to the transfer gene homolog identified a gene cluster located on the 92-kb resident plasmid that showed homology to type IV secretion systems. The role of ptwD4, ptwC, ptwB4, and ptwB10 in the expression of ptw activity was determined by conducting site-directed mutagenesis. The ptw phenotype was not expressed by K56-2 derivatives with a disruption in ptwD4, ptwB4, or ptwB10 but was observed in a derivative with a disruption in ptwC. Complementation of ptw-negative K56-2 derivatives in trans resulted in complete restoration of the ptw phenotype. In addition, analysis of culture supernatants revealed that the putative ptw effector(s) was a secreted, heat-stable protein(s) that caused plasmolysis of plant protoplasts. A second chromosomally encoded type IV secretion system with complete homology to the VirB-VirD system was identified in K56-2. Site-directed mutagenesis of key secretory genes in the VirB-VirD system did not affect expression of the ptw phenotype. Our findings indicate that in strain K56-2, the plasmid-encoded Ptw type IV secretion system is responsible for the secretion of a plant cytotoxic protein(s).     

Identification of Fusarium species causing basal rot of onion in East Azarbaijan province,Iran and evaluation of their virulence on onion bulbs and seedlings

One of the economically important diseases of onion is the basal rot caused by various Fusarium species. Identification of the pathogenic species prevalent in a region is indispensable for designing management strategies, especially to develop resistant cultivars. Eighty Fusarium isolates are obtained from red onion bulbs on infected fields of East Azarbaijan province. Inoculating the onion bulbs with 38 selective isolates indicated that 17 isolates were pathogenic on onion. According to the morphological and molecular characteristics, these isolates were identified as F. oxysporum, F. solani, F. proliferatum and F. redolens. This is the first report of F. redolens on onion in Iran. On the other hand, the virulence of each pathogenic isolate was evaluated on onion bulbs and seedlings. F. oxysporum which causes severe rot and damping-off was considered as a highly virulent species in both conditions. While, F. proliferatum was considered as the most destructive on onion bulbs. Rot ability of F. solani was not considerable, and only the 4S isolate caused pre- and post-emergence damping-off more than 50%. Finally, F. redolens with less pathogenicity on onion bulbs was identified as the most virulent isolate on onion seedlings, which was explanatory of its importance on farm.     

Genetic and virulence variation in Fusarium oxysporum f. sp. cepae causing root and basal rot of common onion in Iran

Root and basal rot of common onion (Allium cepae L.) caused by Fusarium oxysporum f. sp. cepae is one of the most important diseases causing tremendous losses in onion‐growing areas worldwide. In this study, random amplified polymorphic DNA (RAPD), intersimple sequence repeats (ISSR) and virulence studies were conducted to analyse 26 F. oxysporum f. sp. cepae isolates obtained from the main onion‐growing regions of Iran, including Fars, Azerbaijan and Isfahan states. Cluster analysis using UPGMA method for both RAPD and ISSR markers revealed no clear grouping of the isolates obtained from different geographical regions, and the isolates were observed to derive probably from the same clonal lineage. Pathogenicity test indicated that all F. oxysporum f. sp. cepae isolates were pathogenic on onion; however, virulence variability was observed among the isolates. The grouping based on virulence variability was not correlated with the results of RAPD and ISSR analyses.     

Burkholderia cepacia complex: distribution of genomovars among isolates from the maize rhizosphere in Italy

Burkholderia cepacia is a 'complex' in which seven genomic species or genomovars have so far been identified. It appears that all seven B. cepacia genomovars are capable of causing infections in vulnerable persons; in particular, the importance of Burkholderia multivorans (genomovar II) and B. cepacia genomovar III among cystic fibrosis isolates, especially epidemic ones, has been emphasized. In order to acquire a better comprehension of the genomovar composition of environmental populations of B. cepacia, 120 strains were isolated from the rhizosphere of maize plants cultivated in fields located in northern, central and southern Italy. The identification of the different genomovars was accomplished by a combination of molecular polymerase chain reaction (PCR)-based techniques, such as restriction fragment length polymorphism (RFLP) analysis of 16S rDNA (ARDRA), genomovar-specific PCR tests and RFLP analyses based on polymorphisms in the recA gene whole-cell protein electrophoresis. ARDRA analysis allowed us to distinguish between all B. cepacia genomovars except B. cepacia genomovar I, B. cepacia genomovar III and Burkholderia ambifaria (genomovar VII). The latter genomovars were differentiated by means of recA PCR tests and RFLP analyses. Among the rhizospheric isolates of B. cepacia, we found only B. cepacia genomovar I, B. cepacia genomovar III, Burkholderia vietnamiensis (genomovar V) and B. ambifaria. B. cepacia genomovars I and III and B. ambifaria were recovered from all three fields, whereas B. vietnamiensis was detected only in the population isolated from the field located in central Italy. Among strains isolated from northern and southern Italy, the most abundant genomovars were B. ambifaria and B. cepacia genomovar III respectively; in contrast, the population isolated in central Italy showed an even distribution of strains among genomovars. These results indicate that it is not possible to differentiate clinical and environmental strains, or pathogenic and non-pathogenic strains, of the B. cepacia complex simply on the basis of genomovar status, and that the environment may serve as a reservoir for B. cepacia genomovar III infections in vulnerable humans.     

Quorum-Sensing Signals and Quorum-Sensing Genes in Burkholderia vietnamiensis

Acyl-homoserine lactone (acyl-HSL) quorum sensing is common to many Proteobacteria including a clinical isolate of Burkholderia cepacia. The B. cepacia isolate produces low levels of octanoyl-HSL. We have examined an environmental isolate of Burkholderia vietnamiensis. This isolate produced several acyl-HSLs. The most abundant species was decanoyl-HSL. Decanoyl-HSL in B. vietnamiensis cultures reached concentrations in excess of 20 microM. We isolated a B. vietnamiensis DNA fragment containing a gene for the synthesis of decanoyl-HSL (bviI) and an open reading frame that codes for a putative signal receptor (bviR). A B. vietnamiensis bviI mutant did not produce detectable levels of decanoyl-HSL.     

基于T7表达系统的洋葱伯克霍尔德菌G63脂肪酶同源高效表达

为实现对洋葱伯克霍尔脂肪酶的可控高效表达, 将目前被广泛使用的T7重组蛋白高效表达系统移植到洋葱伯克霍尔德菌(Burkholderia cepacia)G63中进行脂肪酶同源表达。首先采用PCR从大肠杆菌BL21(DE3)中得到T7 RNA 聚合酶基因(T7 RNAP)并将其克隆到致死质粒pJQ200SK上, 然后在T7 RNAP 前后各加入500 bp用于同源重组的片段, 再通过三亲本杂交把T7 RNAP整合到B. cepacia基因组上, 使T7 RNAP受到脂肪酶基因(lipA)启动子调控。接着把lipA和它的伴侣基因lipB单独或全部克隆到载体pUCPCM和pBBR22b上, 构建出pBBR22blipAB、pBBR22blipA、pUCPCMlipAB、pUCPCMlipA、pUCPCMΔlipAlipB、pUCPCMΔlipA、pUCPCMΔlipB七种表达质粒, 通过电转化将上述表达质粒转化到含T7 RNAP的B. cepacia宿主菌中, 最终得到一系列脂肪酶基因工程菌。通过摇瓶诱导发酵发现含表达质粒pUCPCMlipAB的工程菌脂肪酶酶活最高, 达到607 U/mg, 与野生菌相比酶活力提高2.8倍, 并且除含pUCPCMΔlipB的工程菌外, 其它工程菌的脂肪酶酶活均有不同程度提高。野生菌与工程菌pUCPCMlipAB的发酵液经硫酸铵沉淀, Sephadex G-75凝胶过滤纯化后, 比酶活分别为29 984 U/mg和30 875 U/mg。以上结果表明, 构建的基于T7表达系统的B. cepacia脂肪酶基因工程能有效提高脂肪酶的表达量, 同时说明分泌信号PelB和增强转录的核糖体接合位点对脂肪酶的表达有促进作用。     

Aggressiveness and Genetic Diversity of Hemileia vastatrix During an Epidemic in Colombia

Since 2008, Colombia has been experiencing an epidemic of the coffee rust Hemileia vastatrix. The altitude range of the disease has expanded, and nursery and young plants that were usually not attacked by the disease are now significantly affected. To determine whether this new epidemic has been caused by a new pathogenic isolate, the molecular diversity of the pathogen causing the epidemic in different regions of the country was assessed, using AFLP molecular markers on isolates collected from coffee fields prior and after the year 2008. We also evaluated the aggressiveness of isolates collected from diverse coffee‐producing areas and from different coffee genotypes. Isolates collected before and during the present epidemic were quite similar both genetically and with regard to their aggressiveness. Out of a total of 349 fragments amplified from 6 AFLP primer combinations, 48 (13.2%) were polymorphic and only 18 were unique among H. vastatrix isolates representative of pre‐2008 and post‐2008 epidemic populations. We conclude that the epidemic was caused by the excessive rainfall that has occurred in Colombia since 2006 and that extended to 2011 and not by the arrival of a new isolate of the pathogen or a change in virulence of the species present in the country.     

Diversity and distribution of Burkholderia cepacia complex in the rhizosphere of rice and maize

A survey of Burkholderia cepacia complex (Bcc) species was conducted in agricultural fields within Hangzhou, China. Out of the 251 bacterial isolates recovered on the selective media from the rhizosphere of rice and maize, 112 of them were assigned to Bcc by PCR assays. The species composition of the Bcc isolates was analyzed by a combination of recA-restriction fragment length polymorphism assays, species-specific PCR tests and recA gene sequencing. The results revealed that the majority belong to B. cepacia, Burkholderia cenocepacia recA lineage IIIB, Burkholderia vietnamiensis and Burkholderia pyrrocinia. Burkholderia cenocepacia and B. vietnamiensis dominated the rhizosphere of maize and rice, respectively, indicating that species composition and abundance of Bcc may vary dramatically in different crop rhizospheres. In addition, one isolate (R456) formed a single discrete cluster within the phylogenetic analysis of the Bcc recA gene, and it may belong to a new genomovar.