Identification of Brucella spp. by using the polymerase chain reaction.

The application of two synthetic oligonucleotides as probes and as primers in the polymerase chain reaction is presented for a specific, sensitive, and quick identification of Brucella spp. The specific oligonucleotide sequences were chosen on the basis of a 16S rRNA sequence alignment between Brucella abortus and Agrobacterium tumefaciens.     

Rapid detection of Brucella spp. by the loop-mediated isothermal amplification method

Aims:  To develop a rapid and sensitive method for detecting Brucella spp.
Methods and Results:  Two sets of six Brucella -specific primers for loop-mediated isothermal amplification (LAMP) were designed from the sequence of the Brucella abortus BCSP31 gene. The specificity and sensitivity were examined for six Brucella species (22 strains) and 18 non- Brucella species (28 strains). The LAMP assay was specific to Brucella spp. in 35 min at 63°C and sensitive (detected 10 fg of genomic DNA). The assay was also applied for the detection of Brucella DNA in contaminated milk and infected mouse organs.
Conclusions:  We developed a sensitive and specific LAMP assay for Brucella spp., with the test appearing to be useful for the detection of the pathogen from clinical and food samples.
Significance and Impact of the Study:  This is the first report of the development of LAMP for the detection of Brucella spp. As the LAMP assay can be performed at a constant temperature and its reactivity is directly observed with the naked eye without electrophoresis, our assay should be useful for the diagnosis of brucellosis as well as the detection of the bacteria in environmental or food samples.     

Novel identification and differentiation of Brucella melitensis, B. abortus, B. suis, B. ovis, B. canis, and B. neotomae suitable for both conventional and real-time PCR systems

We describe the development of a novel PCR assay for the rapid detection of members of the Brucella genus, and the differentiation between six recognized Brucella species. The assay has proven to be highly specific with the additional advantage of being suitable for use with both conventional and real-time PCR.     

Establishment of loop-mediated isothermal amplification (LAMP) for rapid detection of Brucella spp. and application to milk and blood samples

Brucella spp. are facultative intracellular bacteria that infect humans and animals. In this study, the loop-mediated isothermal amplification (LAMP) was used to detect the Brucella-specific gene omp25. Reaction conditions were optimized as temperature 65°C, reaction time 60 min, Mg(2+) concentration 8.0 mmol/L, polymerase content Bst DNA, 0.5 μL, deoxyribonucleotide concentration 1.6 mmol/L, and inner/outer primer ratio 1:8. The LAMP method was evaluated with 4 Brucella species and 29 non-Brucella bacteria species. Positive reactions were observed on all the 4 Brucella species but not on any non-Brucella species. The limit of detection of the LAMP method was 3.81 CFU Brucella spp. Using the LAMP method, 7 of 110 raw milk samples and 5 of 59 sheep blood samples were detected positive of Brucella spp. Results indicated that LAMP is a fast, specific, sensitive, inexpensive, and suitable method for diagnosis of Brucella spp. infection.     

Amplification fragment length polymorphism in Brucella strains by use of polymerase chain reaction with arbitrary primers.

DNA heterogeneity among members of the genus Brucella was demonstrated with the arbitrarily primed polymerase chain reaction (AP-PCR). Simple, reproducible genomic fingerprints from DNA of 25 different Brucella strains were generated with five arbitrarily chosen primers, alone and in pairs, with the PCR. Reaction conditions were optimized for each primer. Several DNA segments were amplified in each sample with all of the primers. PCR products that are not shared among all strains act as polymorphic markers. Polymorphism was apparent for each primer. The Brucella strains can be distinguished according to the banding patterns of their amplified DNA on agarose gels, and the differences can be diagnostic of specific strains. To determine genetic relatedness among the Brucella strains, similarity coefficients were calculated. Statistical analysis of the similarity coefficients revealed the degrees of relatedness among strains of the genus Brucella.     

Classification of Brucella spp. isolated from marine mammals by DNA polymorphism at the omp2 locus

A number of recent reports have described the isolation and characterization of Brucella strains from a wide variety of marine mammals such as seals, porpoises, dolphins and a minke whale. These strains were identified as brucellae by conventional typing tests. However, their overall characteristics were not assimilable to those of any of the six currently recognized Brucella species and it was suggested that they comprise a new nomen species to be called Brucella maris. In the present study we analysed DNA polymorphism at the omp2 locus of 33 marine mammal Brucella strains isolated from seals, dolphins, porpoises and an otter. The omp2 locus contains two gene copies (named omp2a and omp2b) coding for porin proteins and has been found particularly useful for molecular typing and identification of Brucella at the species, biovar, or strain level. PCR-restriction fragment length polymorphism (RFLP) and DNA sequencing showed that strains isolated from dolphins and porpoises carry two omp2b gene copies instead of one omp2a and one omp2b gene copy or two similar omp2a gene copies reported in the currently recognized species. This observation was also recently made for a minke whale Brucella isolate. The otter and all seal isolates except one were shown to carry one omp2a and one omp2b gene copy as encountered in isolates from terrestrial mammals. By PCR-RFLP of the omp2b gene, a specific marker was detected grouping the marine mammal Brucella isolates. Although marine mammal Brucella isolates may represent a separate group from terrestrial mammal isolates based on omp2b sequence constructed phylogenetic trees, the divergence found between their omp2b and also between their omp2a nucleotide sequences indicates that they form a more heterogeneous group than isolates from terrestrial mammals. Therefore, grouping the marine mammal Brucella isolates into one species Brucella maris seems inappropriate unless the currently recognized Brucella species are grouped. With respect to the current classification of brucellae according to the preferential host, brucellae isolated from such diverse marine mammal species as seals and dolphins could actually comprise more than one species, and at least two new species, B. pinnipediae and B. cetaceae, could be compatible with the classical criteria of host preferentialism and DNA polymorphism at their omp2 locus.     

Detection and differentiation of the six Brucella species by polymerase chain reaction.

BACKGROUND: Brucelosis is a severe acute febrile disease caused by bacteria of the genus Brucella. Its current diagnosis is based on clinical observations that may be complemented by serology and microbiological culture tests; however, the former is limited in sensitivity and specificity, the latter is time consuming. To improve brucelosis diagnosis we developed a test which is specific and sensitive and is capable of differentiating the six species of Brucella. MATERIALS AND METHODS: Four primers were designed from B. abortus sequences at the well-conserved Omp2 locus that are able to amplify the DNAs of all six species of Brucella. RESULTS: Our test detected all six species of Brucella. Their differentiation resulted directly from differences in the amplification patterns or was achieved indirectly using a RFLP present in one of the PCR products. The sensitivity and specificity of the new test were then determined; it was applied successfully in confirming the diagnosis of a patient whose clinical history and serology indicated infection with Brucella. CONCLUSIONS: The results make possible the use of a PCR test for Brucella detection and differentiation without relying on the measurement of the antibodies or microorganism culture. Our first results showed that the PCR test can confirm the presence of Brucella in blood samples of infected patients.     

复合探针荧光定量PCR法检测布鲁氏菌的实验研究

目的:建立用复合探针荧光定量PCR快速检测布鲁氏菌的方法。方法:研究根据BSCP31基因编码31KDa的布鲁氏杆菌表面蛋白的核苷酸序列设计特异引物,通过PCR法的特异性、灵敏度和重复性研究,建立了复合探针荧光定量PCR检测布鲁氏菌的方法,用于布鲁氏菌病的筛选和诊断。结果:结果表明该检测方法的特异性为100%,最低可检出10个拷贝的质粒DNA分子,可对1×101-1×106拷贝范围内的模板进行定量,最低可检测至1×102CFU/ml细菌。该方法的精密度好,阳性质控品和阴性质控品不同时间测定三次及同一时间五次重复实验结果CV值均小于5%。结论:本研究建立的复合探针实时荧光定量PCR检测布鲁氏杆菌的方法,可对布鲁氏病原菌进行快速检测,对布病的筛选和确诊具有重要意义。     

Molecular evidence of new variant Brucella in North Pacific common minke whales

Brucella, a causative agent of brucellosis, has been isolated recently from a variety of marine mammals. The molecular analysis of marine mammalian Brucella strains, without manifest pathology of brucellosis in the eastern North Atlantic, showed that they are distinct from terrestrial Brucella species. Previously, we reported abnormal gonads in common minke whales (Balaenoptera acutorostrata) in the western North Pacific and suggested the presence of Brucella infection in the whales in pathology and serology studies. In the present study, using polymerase chain reaction (PCR), Brucella was detected in granular testes of the whales showing caseation or calcification. The insertion of an IS711 transposable element specific for marine mammal isolates as well as a seal isolate-specific DNA fragment were also found. Molecular characterization of Brucella based on sequence analysis of the PCR products amplified from the outer membrane protein (omp) 2 gene showed that the Brucella from North Pacific common minke whales was different from terrestrial and North Atlantic marine mammal Brucella strains. The North Pacific Brucella showed the highest similarity to North Atlantic seal strains among the known Brucella strains.     

Brucella melitensis B115-based complement fixation test to detect antibodies induced by Brucella rough strains

Aims:  To assess the efficiency of a Brucella melitensis B115 rough strain, naturally devoid of anticomplementary activity, used as antigen in a complement fixation test (CFT) to detect antibodies induced by Brucella strains with rough phenotype, such as Brucella abortus RB51, Brucella ovis and Brucella canis .
Methods and Results:  Complement fixation testing was performed on sera from RB51-vaccinated cattle and buffaloes, B. ovis -infected sheep and B. canis -infected dogs using B115, RB51 and the hot saline extract (HSE) as antigens. The B115-based CFT proved highly sensitive and specific in detecting rough antibodies and its efficiency was comparable with that of RB51 and HSE-based CFT.
Conclusions:  Brucella melitensis B115 can be successfully used as an antigen in CFT to detect antibodies induced by Brucella rough strains.
Significance and Impact of the Study:  Brucella melitensis B115 antigen may represent an improvement over Brucella rough strains for Brucella antibody detection by CFT, thus enhancing the efficiency of brucellosis surveillance systems. Owing to the absence of anticomplementary activity, it does not require particular growth conditions or modifications and can be accurately standardized. The B115-based CFT may constitute a suitable supplementary test for the diagnosis of human infections owing to rough Brucellae .     

Cloning of Brucella genes in Escherichia coli K12 cells and analysis of products of the cloned genes]

The libraries of Brucella melitensis 565 and Brucella abortus 99 in Escherichia coli cells have been constructed. Some clones of Escherichia coli producing the specific brucella antigens have been found in immunological tests with brucella antiserum. Two strains producing antigens have been characterized, one being from Brucella melitensis 565 and another from Brucella abortus 99 clone libraries . Both strains synthesize two antigens that were studied by immunoelectrophoresis, immunoblotting after treatment of antigen preparations with different physical and chemical agents substrate specific enzymes. Both strains are found to synthesize the specific brucella antigens of protein nature. One of them has the mol mass about 15 kD, another--31-32 kD. The 31-32 kD antigen can be, evidently, referred to as the main protein of an outer membrane of brucella.     

Activity of native vs. synthetic promoters in Brucella

Brucellosis caused by Brucella species is reportedly the most common zoonotic infection worldwide. The bacterial pathogen is also classified by the Centers for Disease Control and Prevention as a category (B) pathogen that has the potential for development as a bioweapon. Although eight genomes of Brucella have been sequenced, little information is available regarding the regulation of gene expression and promoter activity in Brucella spp. We therefore constructed a set of broad-host-range vectors expressing the lacZ reporter gene from various promoters. Four groups of promoters (Brucella native, antibiotic resistant, bacteriophage and synthetic promoters) were tested in vivo and in vitro in Brucella suis. The highest level of heterologous gene expression was achieved with synthetic hybrid trc promoter carrying the adenine-rich upstream element. Furthermore, this demonstrates the usefulness of synthetic promoters for enhanced level of gene expression in Brucella spp.     

Comparison of different PCR methods for detection of Brucella spp. in human blood samples

For detection of Brucella species by PCR four DNA extraction methods and four targets were compared using pure culture of Brucella melitensis and the best conditions were applied in clinical samples. It was found that the MagNA Pure LC method was the most efficient and sensitive method showing a positive PCR reaction with DNA extracted from as low as 25 and 100 CFU suspended in one ml blood and one ml water, respectively. Detection of Brucella spp. by conventional PCR was investigated using four different targets. The results indicated that The B4-B5 amplification method was the most sensitive one as it could amplify DNA extracted from as a low as 25 and 100 CFU/ml suspended in one ml water and blood, respectively. Furthermore real-time PCR was able to detect Brucella using DNA extracted from as low as 50 CFU/ml blood and 15 CFU/ml water, respectively. The best and optimum detection conditions were applied to the clinical samples. Evaluation of conventional PCR assays on blood specimens confirmed 72% of the results obtained by conventional blood culture methods with a specificity of 95%, while serum samples had a sensitivity of 54% and specificity of 100%. Real-time PCR was generally found to be more sensitive and specific for detecting Brucella spp. in blood and serum samples compared to conventional PCR. The real-time PCR done on blood specimens confirmed 77.5% of the results obtained by conventional blood culture methods with specificity of 100%, while 60% of serum samples were found to be positive with specificity of 100%. These results suggest that serum and blood analysis by conventional and real time PCR is a convenient and safe method for rapid and accurate diagnosis of brucellosis.     

Vaccination with live Escherichia coli expressing Brucella abortus Cu/Zn superoxide-dismutase: II. Induction of specific CD8+ cytotoxic lymphocytes and sensitized CD4+ IFN-gamma-producing cell

Previously we reported that immunization with Escherichia coli DH5alpha-expressing Brucella abortus Cu/Zn superoxide dismutase [E. coli (pBSSOD)] induces a protective immune response in BALB/c mice. Here we studied the type of immune defense that the recombinant E. coli induces in mice using as our experimental model Brucella superoxide dismutase Cu/Zn presented by J744.A1 to sensitized lymphocytes as the target of specific lysis or as cytokine inductors. The results indicate that E. coli carrying the Cu/Zn gene was able to induce specific cytotoxic T cells, mainly from CD8(+) subpopulation and IFN-gamma-producing cells belonging in their vast majority to the CD4(+) subpopulation.     

Brucella: a Mr "Hide" converted into Dr Jekyll

Dr David Bruce (1855-1931) first identified the causative agent of brucellosis as a small Gram-negative alpha-Proteobacterium, which was later on called Brucella melitensis in his honor by Meyer and Shaw. Nowadays, four strains exhibit pathogenicity in humans with B. melitensis being the least host specific and also the most infectious for humans. The other strains are Brucella suis and Brucella abortus and more recently human cases being infected with Brucella cetaceae have been reported. Why such a reemerging disease is so difficult to fight, evidence shows that the pathogenic bacterium has developed strategies to hide from immune recognition.     

上海地区散发布氏杆菌感染的细菌学及分子鉴定

目的 本研究对我院的1例散发布氏杆菌病患者进行细菌学及分子生物学的分析,并在国内首次尝试了用数目可变串联重复单元(VNTR)分子指纹分析法对其进行了基因分型并和国际流行株进行了分子流行病学比较分析。方法 对临床疑似布氏杆菌病病例作血液细菌培养与生化鉴定,进一步作布氏杆菌特异性基因片段的序列分析鉴定以及利用布氏杆菌基因组中的8个位点构建VNTR指纹图谱,参照国际布氏杆菌VNTR数据库,构建布氏杆菌基因系统树。结果 用细菌学方法确定散发疑似布氏杆菌病病例体内分离到的为布氏杆菌,通过基因序列分析进一步得到证实,但不能鉴定到生物种和生物型。对分离株作VNTR指纹分析提示该散发布氏杆菌病为猪2型布氏杆菌感染所致。结论 通过传统细菌培养方法与布氏杆菌VNTR指纹分析可用于我国布氏杆菌病分子流行病学的系统调查。     

Preliminary development of a diagnostic test for Brucella using polymerase chain reaction

A highly sensitive and specific diagnostic test for Brucella based on polymerase chain reaction is under development in our laboratory. A commercially available PCR kit was used to create primers that allowed the amplification of a 635 bp fragment of a 43 kDa outer membrane protein gene from Brucella abortus strain 19. We successfully amplified the cloned gene present in the pMS64 plasmid and genomic Brucella S19 DNA. The amplified DNA was easily detected by agarose gel electrophoresis. Using both the pMS64 plasmid and Br. abortus S19 purified DNA as template each component of the PCR reaction was adjusted for the optimum amplification of the DNA sequence. Optimum specific amplification resulted when the primer annealing temperature was 60C. The gene fragment was amplifiable in 25 different Brucella species and strains. To test the specificity of the reaction, DNA extracted from 17 micro-organisms possibly associated with cattle were tested. No amplification was observed. The sensitivity of the reaction was determined with different concentrations of genomic Brucella strain 19 DNA. As little as 0.1 pg DNA (less than 100 brucella cells) could be detected. The specificity and sensitivity of PCR combined with its simplicity and speed suggests the potential of this technique for routine diagnosis of brucellosis.     

Preliminary development of a diagnostic test for Brucella using polymerase chain reaction

A highly sensitive and specific diagnostic test for Brucella based on polymerase chain reaction is under development in our laboratory. A commercially available PCR kit was used to create primers that allowed the amplification of a 635 bp fragment of a 43 kDa outer membrane protein gene from Brucella abortus strain 19. We successfully amplified the cloned gene present in the pMS64 plasmid and genomic Brucella S19 DNA. The amplified DNA was easily detected by agarose gel electrophoresis. Using both the pMS64 plasmid and Br. abortus S19 purified DNA as template each component of the PCR reaction was adjusted for the optimum amplification of the DNA sequence. Optimum specific amplification resulted when the primer annealing temperature was 60 degrees C. The gene fragment was amplifiable in 25 different Brucella species and strains. To test the specificity of the reaction, DNA extracted from 17 micro-organisms possibly associated with cattle were tested. No amplification was observed. The sensitivity of the reaction was determined with different concentrations of genomic Brucella strain 19 DNA. As little as 0.1 pg DNA (less than 100 brucella cells) could be detected. The specificity and sensitivity of PCR combined with its simplicity and speed suggests the potential of this technique for routine diagnosis of brucellosis.     

Type III secretion homologs are present in Brucella melitensis,B. ovis,and B. suis biovars 1, 2, and 3

Protein sequences from characterized type III secretion (TTS) systems were used as probes in silico to identify several TTS gene homologs in the genome sequence of Brucella suis biovar 1 strain 1330. Four of the genes, named flhB, fliP, fliR, and fliF on the basis of greatest homologies to known flagellar apparatus proteins, were targeted in PCR and hybridization assays to determine their distribution among other Brucella nomen species and biovars. The results indicated that flhB, fliP, fliR and fliF are present in Brucella melitensis, Brucella ovis, and Brucella suis biovars 1, 2 and 3. Similar homologos have been reported previously in Brucella abortus. Using RT-PCR assays, we were unable to detect any expression of these genes. It is not yet known whether the genes are the cryptic remnants of a flagellar system or are actively involved in a process contributing to pathogenicity or previously undetected motility, but they are distributed widely in Brucella and merit further study to determine their role.     

Identification of a Brucella spp. secreted effector specifically interacting with human small GTPase Rab2

Bacteria of the Brucella genus are facultative intracellular class III pathogens. These bacteria are able to control the intracellular trafficking of their vacuole, presumably by the use of yet unknown translocated effectors. To identify such effectors, we used a high-throughput yeast two-hybrid screen to identify interactions between putative human phagosomal proteins and predicted Brucella spp. proteins. We identified a specific interaction between the human small GTPase Rab2 and a Brucella spp. protein named RicA. This interaction was confirmed by GST-pull-down with the GDP-bound form of Rab2. A TEM-β-lactamase-RicA fusion was translocated from Brucella abortus to RAW264.7 macrophages during infection. This translocation was not detectable in a strain deleted for the virB operon, coding for the type IV secretion system. However, RicA secretion in a bacteriological culture was still observed in a ΔvirB mutant. In HeLa cells, a ΔricA mutant recruits less GTP-locked myc-Rab2 on its Brucella-containing vacuoles, compared with the wild-type strain. We observed altered kinetics of intracellular trafficking and faster proliferation of the B. abortusΔricA mutant in HeLa cells, compared with the wild-type control. Altogether, the data reported here suggest RicA as the first reported effector with a proposed function for B. abortus.