DNA polymorphism in strains of the genus Brucella

Preparations of DNA from 23 Brucella strains including 19 reference strains were compared by restriction endonuclease analysis. Pulsed-field gel electrophoresis resulted in optimal resolution of fragments generated by digestion with low-cleavage-frequency restriction enzymes such as XbaI. By this technique, five electrophoretypes were distinguished in five reference strains of the different species, i.e., B. abortus, B. melitensis, B. suis, B. canis, and B. ovis. Minor profile differences allowed us to discriminate between most biovars within a species. However, the differences in the DNA patterns of different field strains of biovar 2 of B. melitensis were not sufficient to serve as markers for epidemiological studies. From the XbaI fragments, we were able to estimate the size of the genomes of B. abortus 544T and B. melitensis 16 MT. This method revealed a relationship between DNA fingerprints, species, and pathovars which could shed light on problems concerning the classification and evolution of members of the genus Brucella.     

Differences in chromosome number and genome rearrangements in the genus Brucella

We have studied the genomic structure and constructed the Spe I, Pac I and I- Ceu I restriction maps of the four biovars of the pathogenic bacterium Brucella suis . B . suis biovar 1 has two chromosomes of 2.1 Mb and 1.15 Mb, similar to those of the other Brucella species: B . melitensis , B . abortus , B . ovis and B . neotomae . Two chromosomes were also observed in the genome of B . suis biovars 2 and 4, but with sizes of 1.85 Mb and 1.35 Mb, whereas only one chromosome with a size of 3.1 Mb was found in B . suis biovar 3. We show that the differences in chromosome size and number can be explained by rearrangements at chromosomal regions containing the three rrn genes. The location and orientation of these genes confirmed that these rearrangements are due to homologous recombination at the rrn loci. This observation allows us to propose a scheme for the evolution of the genus Brucella in which the two chromosome-containing strains can emerge from an hypothetical ancestor with a single chromosome, which is probably similar to that of B . suis biovar 3. As the genus Brucella is certainly monospecific, this is the first time that differences in chromosome number have been observed in strains of the same bacterial species.     

Use of western immunoblot analysis for testing moose serum for Brucella suis biovar 4 specific antibodies.

To determine if 12 moose (Alces alces) from northern Alaska with agglutinating antibodies specific for Brucella spp. had been exposed to either B. suis biovar 4 or B. abortus biovar 1, western immnnoblot serologic analysis was performed. Differential serologic responses to strain specific A and M antigenic variances of the lipopolysaccharide O-polysaccharide sugar allowed strain identification. Prior to examination, test sera were absorbed with killed whole cells from either B. abortus biovar 1, containing predominately A antigen (A+ M-); B. melitensis biovar 1, containing essentially M antigen (A- M+); or B. suis biovar 4, containing both antigenic tyes (A+ M+). The resulting sera were then examined by western immunoblot for recognition of either B. abortus biovar 1, B. melitensis biovar 1, or B. suis biovar 4 cell lysates. The results of this study indicate that these moose were exposed to B. suis biovar 4, a known pathogen of caribou (Rangifer tarandus) from arctic Alaska.     

Isolation of Brucella melitensis biovar 3 from a chamois (Rupicapra rupicapra) in the southern French Alps

Systemic brucellosis caused by Brucella melitensis biovar 3 was identified in a chamois (Rupicapra rupicapra) near the Parc National des Ecrins in the southern French Alps (France). Clinical signs included orchiepididymitis, polyarthritis, blindness and various neurological signs; necropsy findings included numerous calcified foci in testis, epididymis, kidney, subcutaneous connective tissue and brain. Brucella sp. were identified in brain by indirect immunofluorescence and B. melitensis biovar 3 was isolated from testis, kidney, eye, lung and joints. This report describes the first case of brucellosis and Brucella sp. isolation in chamois in France and the first case of B. melitensis isolation in this host species.     

Bacteriocinogenicity of brucellae isolated in foci in the Caucasus and their evaluation from taxonomic viewpoints

The aim of the study was to elucidate the possibility of using bacteriocinogenicity of Brucella as taxonomic feature, to determine their phylogenetic relation to other microorganisms by their bacteriocinogenic properties and to investigate the physicochemical properties of brucellacin and conditions for its stable detection. The Brucella cultures were isolated in the Caucasus. Investigation of their capacity for production of bacteriocin according to the procedure described by M.A. Konstantinova and A.D. Garmazova (1979) revealed that 62.1 per cent of the 216 cultures tested produced brucellacin. Isolation of bacteriocin with the methods developed was shown possible in all of the tested strains of B. melitensis, B. abortus, B. suis and in most of the strains of B. ovis. The methods also provided an increase in the synthesis and activity of brucellacin. The analysis of the characteristic features of bacteriocinogenicity and the properties of bacteriocin allowed recommending the use of additional taxonomic features for identification and differentiation of Brucella. Sensitivity of the indicator strains of Brucella to bacteriocins of other species (F. tularensis, Campylobacter fetus intestinalis B-8833, Y. enterocolitica, Vibrio cholerae and E. coli Fredericq) was noted which was additional evidence of the phylogenic relation between the above organisms. Investigation of the physicochemical properties of brucellacin confirmed the suggestion of the protein nature of the active principle of brucellacin and its similarity in different Brucella species.     

Restriction site polymorphisms in the genes encoding new members of group 3 outer membrane protein family of Brucella spp

Thirty-seven Brucella reference and field strains representing all the species and their biovars were analysed by PCR-RFLP to determine the degree of variation in the genes encoding the new members of group 3 outer membrane protein (Omp) family. Analysis of the omp22 and omp25c/omp25d genes indicated that the restriction patterns were identical for all species and biovars with all restriction enzymes tested, except for Brucella ovis that showed a short 30 bp deletion close to omp22 gene, and for B. abortus biovar 6 and B. ovis that lacked a DdeI site and a HinfI site, respectively, in the omp25c/omp25d genes. Analysis of PCR products of the omp31b gene digested with 20 restriction enzymes revealed that this gene has a greater level of DNA polymorphism than the other genes encoding the new members of group 3 Omp family. A deletion of 232bp was detected in fourteen B melitensis strains from different hosts and from different geographic origins, confirming that this feature is indeed a hallmark of B. melitensis. PCR-RFLP analysis of omp31b with DdeI allowed us to identify species-specific markers for B. abortus, B. melitensis, and B. ovis. Finally, by PCR analysis, Southern blot hybridization and DNA sequencing we showed that a large deletion of 15 kb, comprising the entire omp25b gene and 21 more genes, is present in all B. ovis strains, thus confirming previous observations from other authors.     

Phospholipids of bacteria of Brucella genus

The phospholipid composition of 6 Brucella species (B. melitensis, B. abortus, B. suis, B. ovis. B. canis, B. neotomae) and Australian mouse-derived strains of Brucella N 4, 11, 12 were studied. Comparison of phospholipid composition of Brucella cells with that of serologically related microorganisms revealed that all Brucella biotypes contain phosphatidyl-(N-methyl)ethanolamine and phosphatidylcholine while Y. enterocolitica, Sh. disenteriae, E. coli cells do not contain these two substances. It is concluded that the specific phospholipid pattern of Brucella biotypes may be useful in typing of new Brucella strains.     

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.     

Parallel gene loss and acquisition among strains of different Brucella species and biovars

The genus Brucella is divided into six species; of these, B. melitensis and B. abortus are pathogenic to humans, and B. ovis and B. neotomae are nonpathogenic to humans. The definition of gene loss and acquisition is essential for understanding Brucella's ecology, evolutionary history, and host relationships. A DNA microarray containing unique genes of B. melitensis Type strain 16MT and B. abortus 9-941 was constructed and used to determine the gene contents of the representative strains of Brucella. Phylogenetic relationships were inferred from sequences of housekeeping genes. Gene loss and acquisition of different Brucella species were inferred. A total of 214 genes were found to be differentially distributed, and 173 of them were clustered into 15 genomic islands (GIs). Evidence of horizontal gene transfer was observed for 10 GIs. Phylogenetic analysis indicated that the 19 strains formed five clades, and some of the GIs had been lost or acquired independently among the different lineages. The derivation of Brucella lineages is concomitant with the parallel loss or acquisition of GIs, indicating a complex interaction between various Brucella species and hosts.     

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.     

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.     

Molecular characterization of the rpoB gene in Brucella species: new potential molecular markers for genotyping

The rpoB gene encoding the beta subunit of the DNA-dependent RNA polymerase was molecularly characterized by PCR amplification and DNA sequencing in 26 Brucella reference strains by using primers selected according to the B. melitensis 16 M rpoB published sequence. Comparison of the rpoB nucleotide sequence of all Brucella strains analysed revealed specific nucleotide variations associated with different Brucella species and biovars. 17 rpoB alleles were recognized and new Brucella typing is proposed. Our results suggest that the rpoB gene polymorphism can be used to identify all Brucella species and most of the biovars, offering an improvement over conventional typing methods.     

METABOLIC CHARACTERIZATION OF THE GENUS BRUCELLA IV. 3: Correlation of Oxidative Metabolic Patterns and Susceptibility to Brucella Bacteriophage, Type abortus, Strain.

Meyer, Margaret E. (University of California, Davis). Metabolic characterization of the genus Brucella. IV. Correlation of oxidative metabolic patterns and susceptibility to Brucella bacteriophage, type abortus, strain 3. J. Bacteriol. 82:950-953. 1961.-A total of 212 strains of brucellae that had been identified as Brucella melitensis, B. abortus, B. suis, or B. neotomae by their oxidative metabolism were tested for their susceptibility to Brucella bacteriophage, type abortus, strain 3. It was demonstrated that only those organisms that displayed the oxidative metabolic pattern that is singular for B. abortus were susceptible to this strain of phage, irrespective of their identity by the conventional methods usually employed for differentiating members of this genus. Strains of organisms that display the features of B. melitensis by the conventional determinative methods, but display the metabolic characteristics of B. abortus, are susceptible to lysis by this phage. These organisms are in fact B. abortus. Strains of organisms that display the features of B. melitensis by the classical methods, and display the metabolic pattern of B. melitensis, are not lysed by this phage. These organisms are B. melitensis. The conclusions then were drawn that B. abortus is the only species that can serve as host for this strain of phage, that oxidative metabolic patterns accurately identify the species in this genus, and that by the conventional methods of differentiation, many strains of B. abortus are misidentified as B. melitensis.     

MLVA16 Typing of Portuguese Human and Animal Brucella melitensis and Brucella abortus Isolates

To investigate the epidemiological relationship of isolates from different Portuguese geographical regions and to assess the diversity among isolates, the MLVA16(Orsay) assay (panels 1, 2A and 2B) was performed with a collection of 126 Brucella melitensis (46 human and 80 animal isolates) and 157 B. abortus field isolates, seven vaccine strains and the representative reference strains of each species. The MLVA16(Orsay) showed a similar high discriminatory power (HGDI 0.972 and 0.902) for both species but panel 1 and 2A markers displayed higher diversity (HGDI 0.693) in B. abortus compared to B. melitensis isolates (HGDI 0.342). The B. melitensis population belong to the "Americas" (17%) and "East Mediterranean" (83%) groups. No isolate belonged to the "West Mediterranean" group. Eighty-five percent of the human isolates (39 in 46) fit in the "East-Mediterranean" group where a single lineage known as MLVA11 genotype 116 is responsible for the vast majority of Brucella infections in humans. B. abortus isolates formed a consistent group with bv1 and bv3 isolates in different clusters. Four MLVA11 genotypes were observed for the first time in isolates from S. Jorge and Terceira islands from Azores. From the collection of isolates analysed in this study we conclude that MLVA16(Orsay) provided a clear view of Brucella spp. population, confirming epidemiological linkage in outbreak investigations. In particular, it suggests recent and ongoing colonisation of Portugal with one B. melitensis lineage usually associated with East Mediterranean countries.     

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 .     

Comparative proteome analysis of Brucella melitensis vaccine strain Rev 1 and a virulent strain, 16M

The genus Brucella consists of bacterial pathogens that cause brucellosis, a major zoonotic disease characterized by undulant fever and neurological disorders in humans. Among the different Brucella species, Brucella melitensis is considered the most virulent. Despite successful use in animals, the vaccine strains remain infectious for humans. To understand the mechanism of virulence in B. melitensis, the proteome of vaccine strain Rev 1 was analyzed by two-dimensional gel electrophoresis and compared to that of virulent strain 16M. The two strains were grown under identical laboratory conditions. Computer-assisted analysis of the two B. melitensis proteomes revealed proteins expressed in either 16M or Rev 1, as well as up- or down-regulation of proteins specific for each of these strains. These proteins were identified by peptide mass fingerprinting. It was found that certain metabolic pathways may be deregulated in Rev 1. Expression of an immunogenic 31-kDa outer membrane protein, proteins utilized for iron acquisition, and those that play a role in sugar binding, lipid degradation, and amino acid binding was altered in Rev 1.     

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。     

Highly sensitive enzyme-linked assay based on monoclonal antibodies for detection of Brucella antigens

Mice monoclonal antibodies against lypopolysaccharides (LPS) of Brucella abortus has been obtained and characterized. The antibodies detected LPS of B. abortus, B. melitensis and B. suis with high sensivity and specificity and did not react with LPS of Yersinia enterocolitica O:3, Y. enterocolitica O:9, Salmonella typhimurium, and Francisella tularensis. It has been shown that interaction of monoclonal antibodies and LPS of Brucella species can be critically dependent from buffer system. Obtained monoclonal antibodies allowed to develop highly sensitive assay which was able to detect antigens of Brucella species in concentrations 0.05 - 0.1 ng/ml. The assay can be used for detection and identification of Brucella species.     

Comparative proteome analysis of laboratory grown Brucella abortus 2308 and Brucella melitensis 16M

Brucella species are pathogenic agents that cause brucellosis, a debilitating zoonotic disease that affects a large variety of domesticated animals and humans. Brucella melitensis and Brucella abortus are considered major health threats because of their highly infectious nature and worldwide occurrence. The availability of the annotated genomes for these two species has allowed a comparative proteomics study of laboratory grown B. melitensis 16M and B. abortus 2308 by two-dimensional (2-D) gel electrophoresis and peptide mass fingerprinting. Computer-assisted analysis of the different 2-D gel images of strains 16M and 2308 revealed significant quantitative and qualitative differences in their protein expression patterns. Proteins involved in membrane transport, particularly the high affinity amino acids binding proteins, and those involved in Sec-dependent secretion systems related to type IV and type V secretion systems, were differentially expressed. Differential expression of these proteins may be responsible for conferring specific host preference in the two strains 2308 and 16M.     

Classification of Brucella strains isolated from marine mammals by infrequent restriction site-PCR and development of specific PCR identification tests

Brucella strains have been isolated since the 1990s from a wide variety of marine mammals and represent potential zoonotic pathogens. They have distinctive phenotypic and molecular characteristics from the terrestrial mammal Brucella species, and two new species names have been previously proposed based on DNA polymorphism at the omp2 locus and their preferential host, i.e. Brucella cetaceae for cetacean isolates and Brucella pinnipediae for pinniped isolates. The results presented in this study on characterization of these strains by infrequent restriction site-PCR (IRS-PCR), taking into account the higher number of IS711 elements in their genome compared to terrestrial mammal Brucella species, supports this classification. The nucleotide sequences of specific DNA fragments detected by IRS-PCR were determined and used to develop PCR identification tests for either B. cetaceae or B. pinnipediae.