Isolation of potentially novel Brucella spp. from frogs

Bacterial isolates from frogs were phenotypically identified as Ochrobactrum anthropi, but 16S rRNA sequencing showed up to 100% identity with Brucella inopinata. Further analysis of recA, omp2a, omp2b, bcsp31, and IS711 and multilocus sequence analysis (MLSA) verified a close relationship with Brucella, suggesting the isolates may actually represent novel members of this growing genus of zoonotic pathogens.     

Phylogenetic analysis of the family Rhizobiaceae and related bacteria by sequencing of 16S rRNA gene using PCR and DNA sequencer

Abstract The 16S rRNA gene sequences of 19 strains covering 97% of the molecules were determined for the members of the family Rhizobiaceae and related bacteria by PCR and DNA sequencer. The three biovars of Agrobacterium were located separately, whereas Agrobacterium rubi clustered with A. tumefaciens . Phylogenetic locations for the species of the genera Rhizobium, Sinorhizobium, Agrobacterium, Phylobacterium, Mycoplana (M. dimorpha), Ochrobactrum, Brucella and Rochalimaea (a rickettsia) were intermingled with each other with the similarity values higher than 92%. The family Rhizobiaceae should be redefined including the above-mentioned genera despite the ability for plant association and nitrogen fixation. Bradyrhizobium japonicum and Mycoplana bullata were far remote from the other species and should be excluded from this family.     

Subordination of the taxa of gram-negative bacteria determined by numerical analysis methods

Various numerical methods were used to estimate the coordination of taxa of gram-negative aerobic and facultative anaerobic organoheterotrophic and chemolithotrophic bacteria. Stable phena were found to be formed by cultures belonging to the families Rhizobiaceae, Halobacteriaceae, Enterobacteriaceae, Nitrobacteriaceae (except the genus Nitrobacter), and Methylomonadaceae (except the genus Methylococcus). The unstable position was found in the genera Thermus, Zoogloea, Xanthomonas, Sulfolobus, Methylococcus, Alcaligenes, Brucella, and Acetobacter. The greatest scatter among the objects being analysed was detected among genera belonging to the family Pseudomonadaceae. The taxonomic position of these genera must be defined more precisely. The family Methylomonadaceae is related to such physiologically unique groups of microorganisms as nitrifying, sulfate-reducing, extreme thermophilic and halophilic forms. All in all, the data reported in this work show that numerical analysis can be used to specify the classification structure of bacteria. In a number of cases, the results are consistent with those changes which are performed in the Bergey Manual 9 using logical analysis (for instance, concerning the position of the genera Gluconobacter, Acetobacter, Beijerinckia, and Derxia).     

Specificity of six gene sequences for the detection of the genus Brucella by DNA amplification

M. DA COSTA, J.-P. GUILLOU, B. GARIN-BASTUJI, M. THIÉBAUD AND G. DUBRAY. 1996. DNA extracted from all Brucella species, reference and vaccine strains were amplified by PCR using primers specific for the genes encoding a 31-kDa Brucella protein, the heat shock proteins (DnaJ, DnaK, HtrA and GroEL) and 16S RNA. No difference was found between Brucella species and biovars with all primer pairs used, even after restriction enzyme analysis of the amplified fragments. The specificity of the amplified products was confirmed by hybridization with a digoxigenin 3'-labelled specific probe and by PCR using 98 non- Brucella micro-organisms' DNA. Only Ochrobactrum anthropi and Phyllobacterium spp. yielded a PCR product by using 31-kDa DnaK, DnaJ, GroEL and 16S RNA primers. After hybridization and restriction analysis, 16S RNA fragments of 3301 and 3331 O. anthropi strains showed a total similarity to those from Brucella. A similar result was shown with DnaJ fragments obtained with 3301 strain of O. anthropi after Eco RI digestion.     

Raman spectroscopy as a potential tool for detection of Brucella spp. in milk

Detection of Brucella, causing brucellosis, is very challenging, since the applied techniques are mostly time-demanding and not standardized. While the common detection system relies on the cultivation of the bacteria, further classical typing up to the biotype level is mostly based on phenotypic or genotypic characteristics. The results of genotyping do not always fit the existing taxonomy, and misidentifications between genetically closely related genera cannot be avoided. This situation gets even worse, when detection from complex matrices, such as milk, is necessary. For these reasons, the availability of a method that allows early and reliable identification of possible Brucella isolates for both clinical and epidemiological reasons would be extremely useful. We evaluated micro-Raman spectroscopy in combination with chemometric analysis to identify Brucella from agar plates and directly from milk: prior to these studies, the samples were inactivated via formaldehyde treatment to ensure a higher working safety. The single-cell Raman spectra of different Brucella, Escherichia, Ochrobactrum, Pseudomonas, and Yersinia spp. were measured to create two independent databases for detection in media and milk. Identification accuracies of 92% for Brucella from medium and 94% for Brucella from milk were obtained while analyzing the single-cell Raman spectra via support vector machine. Even the identification of the other genera yielded sufficient results, with accuracies of >90%. In summary, micro-Raman spectroscopy is a promising alternative for detecting Brucella. The measurements we performed at the single-cell level thus allow fast identification within a few hours without a demanding process for sample preparation.     

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.     

Localization and characterization of a specific linear epitope of the Brucella DnaK protein

We have previously produced and characterized four monoclonal antibodies to the Brucella DnaK protein which were derived from mice infected with B. melitensis or immunized with the B. melitensis cell wall fraction. By use of a recombinant DNA technique, we have localized a linear epitope, recognized by two of these monoclonal antibodies (V78/07B01/G11 and V78/09D04/D08), in the last 21 amino acids of the C-terminal region of the Brucella DnaK protein. The C-terminal region has been reported to be the most variable region among DnaK proteins. The two other monoclonal antibodies (A53/09G03/D02 and A53/01C10/A10) failed to react with the recombinant clones and might recognize discontinuous epitopes of the Brucella DnaK protein. The four monoclonal antibodies reacted with all recognized Brucella species and biovars in immunoblotting after SDS-PAGE. Monoclonal antibodies V78/07B01/G11 and V78/09D04/D08 did not react with reported cross-reacting bacteria nor with bacteria of the α-2 subdivision of the class Proteobacteria for which a close genetic relationship with Brucella spp. has been reported. However, monoclonal antibodies A53/09G03/D02 and A53/01C10/A10 reacted with Phyllobacterium rubiacearum and/or Ochrobactrum anthropi, both bacteria of the α-2 subdivision of the class Proteobacteria. The Brucella genus DnaK specific epitopes could be of importance for diagnostic purposes.     

Homologies of Deoxyribonucleic Acids from Brucella ovis, Canine Abortion Organisms, and other Brucella Species

The bacterium that causes canine abortion has polynucleotide sequences similar, in deoxyribonucleic acid (DNA)-DNA homology studies, to those of Brucella suis and, by inference from previous data, those of B. abortus and B. melitensis as well as B. neotomae. Therefore, the organism causing canine abortion appears to be a member of the genus Brucella. DNA preparations from Serratia marcescens, Alcaligenes faecalis, and Bordetella bronchiseptica, 58, 62, and 66 mole% guanine plus cytosine, respectively, do not have detectable polynucleotide sequence homologies with B. suis DNA which is 56 mole% guanine plus cytosine. B. ovis DNA lacks some of the polynucleotide sequences present in B. suis DNA and appears to be a deletion mutant. However, a large proportion of B. ovis polynucleotides are similar to those of other Brucella species, which supports the inclusion of B. ovis in the genus.     

Molecular, antigenic, and functional analyses of Omp2b porin size variants of Brucella spp

Omp2a and Omp2b are highly homologous porins present in the outer membrane of the bacteria from the genus Brucella, a facultative intracellular pathogen. The genes coding for these proteins are closely linked in the Brucella genome and oriented in opposite directions. In this work, we present the cloning, purification, and characterization of four Omp2b size variants found in various Brucella species, and we compare their antigenic and functional properties to the Omp2a and Omp2b porins of Brucella melitensis reference strain 16M. The variation of the Omp2a and Omp2b porin sequences among the various strains of the genus Brucella seems to result mostly from multiple gene conversions between the two highly homologous genes. As shown in this study, this phenomenon has led to the creation of natural Omp2a and Omp2b chimeric proteins in Omp2b porin size variants. The comparison by liposome swelling assay of the porins sugar permeability suggested a possible functional differences between Omp2a and Omp2b, with Omp2a showing a more efficient pore in sugar diffusion. The sequence variability in the Omp2b size variants was located in the predicted external loops of the porin. Several epitopes recognized by anti-Omp2b monoclonal antibodies were mapped by comparison of the Omp2b size variants antigenicity, and two of them were located in the most exposed surface loops. However, since variations are mostly driven by simple exchanges of conserved motifs between the two genes (except for an Omp2b version from an atypical strain of Brucella suis biovar 3), the porin variability does not result in major antigenic variability of the Brucella surface that could help the bacteria during the reinfection of a host. Porin variation in Brucella seems to result mainly in porin conductivity modifications.     

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.     

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。     

Intraspecies biodiversity of the genetically homologous species Brucella microti

Brucellosis is one of the major bacterial zoonoses worldwide. In the past decade, an increasing number of atypical Brucella strains and species have been described. Brucella microti in particular has attracted attention, because this species not only infects mammalian hosts but also persists in soil. An environmental reservoir may pose a new public health risk, leading to the reemergence of brucellosis. In a polyphasic approach, comprising conventional microbiological techniques and extensive biochemical and molecular techniques, all currently available Brucella microti strains were characterized. While differing in their natural habitats and host preferences, B. microti isolates were found to possess identical 16S rRNA, recA, omp2a, and omp2b gene sequences and identical multilocus sequence analysis (MLSA) profiles at 21 different genomic loci. Only highly variable microsatellite markers of multiple-locus variable-number tandem repeat (VNTR) analysis comprising 16 loci (MLVA-16) showed intraspecies discriminatory power. In contrast, biotyping demonstrated striking differences within the genetically homologous species. The majority of the mammalian isolates agglutinated only with monospecific anti-M serum, whereas soil isolates agglutinated with anti-A, anti-M, and anti-R sera. Bacteria isolated from animal sources were lysed by phages F1, F25, Tb, BK2, Iz, and Wb, whereas soil isolates usually were not. Rough strains of environmental origin were lysed only by phage R/C. B. microti exhibited high metabolic activities similar to those of closely related soil organisms, such as Ochrobactrum spp. Each strain was tested with 93 different substrates and showed an individual metabolic profile. In summary, the adaptation of Brucella microti to a specific habitat or host seems to be a matter of gene regulation rather than a matter of gene configuration.     

A novel Brucella isolate in association with two cases of stillbirth in non-human primates – first report

Background  Brucellosis is veterinary and human health problem.
Methods  A 13-year-old wild caught multiparous and an 8-year-old colony-born nulliparous baboon had stillbirths in the second trimester of pregnancy. Culture isolates from both postpartum uteruses were characterized using traditional biochemical analysis, PCR, and multilocus sequencing.
Results  The isolates morphologically resembled Brucella although their phenotypic characteristics were not consistent with any currently described species. The isolates represent a novel lineage within the genus with unique alleles, not previously seen in surveys of greater than 300 isolates representing the known diversity of the genus, present at 5/9 loci examined.
Conclusions  The described cases are to the best of our knowledge the first presentation of a naturally acquired Brucella infection in non-human primates associated with stillbirths from the same colony where Brucella seropositivity in the baboons was described 45 years ago. The organism appears to represent a previously undescribed Brucella species.     

Cloning, expression and characterization of immunogenic aminopeptidase N from Brucella melitensis

A 97-kDa purified aminopeptidase N (PepN) of Brucella melitensis was previously identified to be immunogenic in humans. The B. melitensis pepN gene was cloned, expressed in Escherichia coli and purified by affinity chromatography. The recombinant PepN (rPepN) exhibited the same biochemical properties, specificity and susceptibility to inhibitors as the native PepN. rPepN was evaluated as a diagnostic antigen in an indirect enzyme-linked immunosorbent assay (ELISA) using sera from patients with acute and chronic brucellosis. The specificity of the ELISA was determined with sera from healthy donors. The ELISA had a cutoff value of 0.156 with 100% specificity and 100% sensitivity. Higher sensitivity was obtained using rPepN compared with crude extract from B. melitensis. Anti-PepN sera did not exhibit serological cross-reaction to crude extracts from Rhizobium tropici, Ochrobactrum anthropi, Yersinia enterocolitica 09 or E. coli O157H7.     

Epizootiology of Brucella infection in Australian fur seals

Novel members of the bacterial genus Brucella have recently emerged as pathogens of various marine mammal species and as potential zoonotic agents. We investigated the epizootiology of Brucella infection in Australian fur seals (Arctocephalus pusillus doriferus) by establishing demographic and temporal variations in antibody prevalence, attempting isolation of the causative agent, and determining whether this potential pathogen is involved in frequent abortions observed in this pinniped species. Two competitive enzyme-linked immunosorbent assays (cELISAs), an indirect ELISA, and a fluorescence polarization assay (FPA) were used to test sera for Brucella antibodies. The FPA and cELISA proved suitable for use in this species. Significant differences in antibody prevalence were found between age classes of seals sampled between 2007 and 2009 at one colony. Pups sampled at this site (n=134) were negative for Brucella antibodies by all serologic tests but 17 of 45 (38%) of juveniles were antibody-positive. Antibody prevalence in adult females was significantly higher than in juveniles (P=0.044). Antibody prevalence for adult females between 2003 and 2009 varied significantly over time (P=0.011), and for individuals sampled between 2003 and 2005, the likelihood of pregnancy was greater in individuals positive for Brucella antibodies (P=0.034). Inflammatory lesions suggestive of infectious agents were found in 14 of 39 aborted Australian fur seal pups, but pathologic changes were not uniformly consistent for Brucella infection. Culture and PCR investigations on fetal tissues were negative for Brucella. Culture and PCR on selected fresh or frozen tissues from 36 juvenile and adult animals were also negative. We suspect that the prevalence of active infection with Brucella in Australian fur seals is low relative to antibody prevalence.     

DNA polymorphism in the omp25/omp31 family of Brucella spp.: identification of a 1.7-kb inversion in Brucella cetaceae and of a 15.1-kb genomic island, absent from Brucella ovis, related to the synthesis of smooth lipopolysaccharide

Five genes homologous to the well-known omp25 and omp31 genes, that code for two major Brucella spp. outer membrane proteins (OMPs), have been detected in the genome of Brucella melitensis 16M and Brucella suis 1330. In this work we have determined the nucleotide sequence of these five genes, named omp31b, omp25b, omp25c, omp25d and omp22, in the six classical Brucella species reference strains and in representative strains of the recently proposed species Brucella cetaceae and Brucella pinnipediae that classify the Brucella strains isolated in the last years from marine mammals. Although these genes are quite conserved in the genus Brucella, several important differences have been found between species (i) omp31b contains a premature stop codon in B. canis and B. ovis truncating the encoded protein; (ii) the 5' end of omp31b is deleted in the three biovars of B. melitensis which probably prevents synthesis of Omp31b in this species; (iii) only B. melitensis, B. suis and B. neotomae would be able to synthesize the Omp25b protein with the characteristics shared by the Omp25/Omp31 group of proteins (characteristic signal sequence and C-terminal phenylalanine); (iv) a DNA inversion of 1747 bp including omp25b was detected in B. cetaceae strains; (v) a DNA deletion of about 15 kb was detected in all the six B. ovis strains tested. This deletion in B. ovis includes, among other genes, omp25b and wboA, a gene that has been shown to be required for the synthesis of the O-polysaccharide chain of the Brucella spp. smooth lipopolysaccharide. Several features of the DNA region absent from B. ovis suggest that this DNA fragment is a genomic island acquired by the Brucella ancestor by horizontal transfer and later deleted from B. ovis. The DNA polymorphism we have found in this work within the genus Brucella might be involved in the differences in pathogenicity and host preference displayed by the Brucella species.     

MALDI-TOF mass spectrometry is a fast and reliable platform for identification and ecological studies of species from family Rhizobiaceae

Family Rhizobiaceae includes fast growing bacteria currently arranged into three genera, Rhizobium, Ensifer and Shinella, that contain pathogenic, symbiotic and saprophytic species. The identification of these species is not possible on the basis of physiological or biochemical traits and should be based on sequencing of several genes. Therefore alternative methods are necessary for rapid and reliable identification of members from family Rhizobiaceae. In this work we evaluated the suitability of Matrix-Assisted Laser Desorption Ionization-Time-of-Flight Mass Spectrometry (MALDI-TOF MS) for this purpose. Firstly, we evaluated the capability of this methodology to differentiate among species of family Rhizobiaceae including those closely related and then we extended the database of MALDI Biotyper 2.0 including the type strains of 56 species from genera Rhizobium, Ensifer and Shinella. Secondly, we evaluated the identification potential of this methodology by using several strains isolated from different sources previously identified on the basis of their rrs, recA and atpD gene sequences. The 100% of these strains were correctly identified showing that MALDI-TOF MS is an excellent tool for identification of fast growing rhizobia applicable to large populations of isolates in ecological and taxonomic studies.     

Intracellular production of Brucella L forms . II. Induction and survival of Brucella abortus L forms in tissue culture

Hatten, Betty A. (The University of Texas Southwestern Medical School, Dallas), and S. Edward Sulkin. Intracellular production of Brucella L forms. II. Induction and survival of Brucella abortus L forms in tissue culture. J. Bacteriol. 91:14-20. 1966.-Intracellular survival of altered brucellae, possibly L forms, was not greatly affected by penicillin or streptomycin in concentrations ranging from 5.0 to 40 mug/ml, but a combination of these two antibiotics (2.5 to 20 mug/ml each) reduced the number of positive L-form cultures. Tetracycline (2.0 mug/ml) decreased the number of positive L-form cultures at about the same rate as combinations of the higher concentrations of penicillin and streptomycin. Various concentrations of tetracycline (0.1 to 2.0 mug/ml) with 5.0 mug/ml of penicillin or streptomycin significantly reduced the number of positive L-form cultures. L forms were recovered for several days after elimination of bacteria from the cultures by all of the antibiotics tested. L-form production was not dependent upon the presence of antibiotics in the culture medium, but they were recovered in greater numbers when bacteria were still present in the hamster kidney cells. Addition of thallium acetate to infected cells (at varying intervals of time after infection) to control bacterial growth and conversion to the L phase during cellular disintegration decreased the number of positive L-form cultures obtained over a 10-day period. Comparison of the antibiotic sensitivity of bacteria recovered from infected tissue culture cells with the stock strain of Brucella abortus indicated that some resistance to penicillin and tetracycline had developed. A marked resistance to streptomycin was observed in those bacteria recovered from cells maintained in the presence of this antibiotic.     

Detection of a specifically amplified DNAfragment in Brucella abortus by arbitrarilyprimed polymerase chain reaction

Randomly amplified polymorphic DNA (RAPD) profiles of Brucella and non-Brucella DNA were established after polymerase chain reaction (PCR) amplification. Five arbitrary oligonucleotide primers were screened to generate Brucella-specific DNA fingerprints. The arbitrary primer OPB-01 (5-GTTTCGCTCC-3) produced DNA bands specific to Brucella. Amplification conditions must be optimized for reproductibility. Accordingly, we optimized and established the conditions, which included Mg²⁺, enzyme (DNA polymerase), primer, template and deoxyribonucleoside triphosphate (dNTP) concentrations as well as the optimum number of thermal cycles to produce OPB-01 directed Brucella DNA fingerprints.The optimized RAPD method can produce a 1.3 kb DNA fragment specific to Brucella. This DNA fragment was common to eight biovars of B. abortus and one biovar of B. melitensis. The fragment was not detected in genetically related species such as Ochrobactrum anthropi and other non-Brucella organisms associated with farm animals. We anticipate the use of this fragment as a possible probe for the detection of Brucella organisms.