Sung-Il Kang

Application and evaluation of the MLVA typing assay for the Brucella abortus strains isolated in Korea

BackgroundA Brucella eradication program has been executed in Korea. To effectively prevent and control brucellosis, a molecular method for genetic identification and epidemiological trace-back must be established. As part of that, the MLVA typing assay was evaluated and applied to B. abortus isolates for analyzing the characteristics of the regional distribution and relationships of foreign isolates.ResultsA total of 177 isolates originating from 105 cattle farms for the period 1996 to 2008 were selected as representatives for the nine provinces of South Korea. A dendrogram of strain relatedness was constructed in accordance with the number of tandem repeat units for 17 loci so that it was possible to trace back in the restricted areas. Even in a farm contaminated by one source, however, the Brucella isolates showed an increase or decrease in one TRs copy number at some loci with high DI values. Moreover, those 17 loci was confirmed in stability via in-vitro and in-vivo passage, and found to be sufficiently stable markers that can readily identify the inoculated strain even if minor changes were detected. In the parsimony analysis with foreign Brucella isolates, domestic isolates were clustered distinctively, and located near the Central and Southern American isolates.ConclusionThe MLVA assay has enough discrimination power in the Brucella species level and can be utilized as a tool for the epidemiological trace-back of the B. abortus isolates. But it is important to consider that Brucella isolates may be capable of undergoing minor changes at some loci in the course of infection or in accordance with the changes of the host.

Advanced Multiplex PCR Assay for Differentiation of Brucella Species

ABSTRACT Two new primer sets of a 766- and a 344-bp fragment were introduced into the conventional Bruce-ladder PCR assay. This novel multiplex PCR assay rapidly and concisely discriminates Brucella canis and Brucella microti from Brucella suis strains and also may differentiate all of the 10 Brucella species.

Immunogenic proteins of Brucella abortus to minimize cross reactions in brucellosis diagnosis

To overcome the limitations of serological diagnosis, including false positive reactions caused by other pathogens, specific antigens for diagnosis of brucellosis other than LPS have been required. The present study was conducted to separate and identify immuno-dominant insoluble proteins of Brucella abortus against the antisera of cattle infected with B. abortus, or/and Yersinia enterocolitica, or the sera of non-infected cattle. After separating insoluble proteins of B. abortus by two dimensional electrophoresis (2-DE), their immuno-reactivity was determined by western blotting. A portion of the immunogenic spots against the positive antisera of B. abortus that have the potential for use as specific antigens were identified by MS/MS analysis. Overall, 18 immunogenic insoluble proteins of B. abortus 1119-3 showed immuno-reactivity against only the positive antisera of B. abortus, but failed to have immunogenicity toward both the positive sera of Y. enterocolitica and the negative sera of B. abortus. Identification of these proteins revealed the following: F0F1 ATP synthase subunit β, solute-binding family 5 protein, 28 kDa OMP, Leu/Ile/Val-binding family protein, Histidinol dehyddrogenase, Hypothetical protein, Twin-arginine translocation pathway signal sequence domain-containing protein, Dihydroorotase, Serine protease family protein, β-hydroxyacyl-(acyl-carrier-protein) dehydratase FabA, Short-chain dehydrogenase-/reductase carbonic anhydrase, Orinithine carbamoyltransferase, Leucyl aminopeptidase, Cold shock DNA-binding domain-containing protein, Cu/Zn superoxide dismutase, and Methionine aminopeptidase. The 18 immunogenic proteins separated in the present study can be considered candidate antigens to minimize cross reaction in the diagnosis of brucellosis and useful sources for Brucella vaccine development.

Molecular typing for epidemiological evaluation of Brucella abortus and Brucella canis isolated in Korea

To investigate genotype relationships among regional groups of Brucella isolates, variable-number tandem-repeat (VNTR) analysis was conducted according to previously reported methods. Field strains of Brucella abortus and Brucella canis were isolated from 9 provinces in the Republic of Korea during the years 1996-2006 and each of the isolates was classified by eight loci of HOOF-Prints. On the basis of the alleles, the 33 B. abortus and 21 B. canis field strains were divided into 22 and 18 distinct genotypes, respectively. Phylogenetic cluster analysis of Brucella isolates could be discriminated with geographical region in the Republic of Korea. Simpsons diversity index values of B. abortus and B. canis isolates ranged from 0 to 0.85. The stability of each locus was determined with in vivo and in vitro experiments. After twenty passages in blood agar, the VNTR numbers of loci 1 and 7 in B. abortus isolates and loci 5, 7, and 8 in B. canis isolates changed. The same change of the VNTR numbers at loci 1 and 7 was observed with B. abortus RB51 strains isolated from vaccinated cattle for the in vivo experiment. Although B. canis and B. abortus isolates were discriminated to herd levels by the HOOF-Prints, this method needs further improvement for the high variable locus. This study represents the first epidemiological data of molecular typing of B. abortus and B. canis reported in Korea.

Immunoproteomics of Brucella abortus RB51 as candidate antigens in serological diagnosis of brucellosis.

The current brucellosis serodiagnostic assays are chiefly based on detecting anti-LPS (lipopolysaccharide) antibodies. However, cross-reaction with some gram-negative bacteria can occasionally induce due to similar O-polysaccharide (OPS) structure. Therefore, the aim of the present study was to identify new candidate antigens from Brucella abortus RB51, a mutant strain lacking the LPS portion, which might be valuable in brucellosis diagnosis. To detect potential antigens, immobilized pH gradients (IPG) strips with three ranges (pH 3-5.6, 4-7 and 6-11) were applied. After separating the insoluble proteins of B. abortus RB51 using two-dimensional electrophoresis (2-DE), their immunogenicity was evaluated by western blotting using four types of antisera - B. abortus, Yersinia enterocolitica O:9 and Escherichia coli O157:H7-positive, and B. abortus-negative bovine sera. Among the several immunogenic spots, the spots showing specific reactivity with only the B. abortus-positive antisera, were considered as candidate antigens. Overall, eleven immuno-reactive proteins were identified, as follows: Cu/Zn superoxide dismutase, histidinol dehydrogenase, chaperonin DnaK, chaperonin GroES, beta-ketoadipyl CoA thiolase, two-component response regulator, the cell-division protein FtsZ, aldehyde dehydrogenase, 50s ribosomal protein L10 and invasion protein B. These selected highly immunogenic protein spots might be useful as alternative antigens for brucellosis and helpful in reducing the cross-reactivity.

Rapid and specific identification of Brucella abortus using the loop-mediated isothermal amplification (LAMP) assay

A rapid and accurate diagnosis of brucellosis is required to reduce and prevent the spread of disease among animals and the risk of transfer to humans. In this study, a Brucella abortus-specific (Ba) LAMP assay was developed, that had six primers designed from the BruAb2_0168 region of chromosome I. The specificity of this LAMP assay was confirmed with Brucella reference strains, B. abortus vaccine strains, B. abortus isolates and phylogenetically or serologically related strains. The detection limit of target DNA was up to 20 fg/μl within 60 min. The sensitivity of the new LAMP assay was equal to or slightly higher than other PCR based assays. Moreover, this Ba-LAMP assay could specifically amplify all B. abortus biovars compared to previous PCR assays. To our knowledge, this is the first report of specific detection of B. abortus using a LAMP assay. The Ba-LAMP assay can offer a rapid, sensitive and accurate diagnosis of bovine brucellosis in the field.

Brucellosis among ruminants in some districts of Bangladesh using four conventional serological assays

Brucellosis causes a great economic loss to the livestock industries through abortion, infertility, birth of weak and dead offspring, increased calving interval and reduction of milk yield and it is endemic in Bangladesh. The present study was performed to know the seroprevalence of brucellosis for 1000 ruminants (135 Buffaloes, 465 cattle, 230 goats and 170 sheep) in five different districts of Bangladesh by four conventional serological tests such as: Rose Bengal Plate Test (RBT), tube agglutination test (TAT), competitive enzyme-linked immunosorbent assay (C-ELISA), and Fluorescent polarization assay (FPA). Sheep has the highest prevalence (8.24%) of brucellosis. The seroprevalence of brucellosis was significantly higher in animals with previous abortion record in case of buffaloes, cattle, goats and sheep than that with no abortion record. C-ELISA can be the most suitable choice for extensive use in many kinds of livestocks and accurate estimation of Brucella antibodies in ruminants in Bangladesh.

The development of a selective medium for the Brucella abortus strains and its comparison with the currently recommended and used medium.

The Brucella spp. are fastidious and relatively slow-growing organisms. The isolation of such strains in a variety of specimens often requires the use of a selective medium to reduce or eliminate the growth of unexpected microorganisms. The modified Brucella selective (MBS) medium, which contains improved antibiotic mixtures, erythritol as the only carbon source, and neutral red as a pH indicator, showed good selectivity for the Brucella abortus strains, including the RB51 vaccine strain. Erythritol in the MBS medium was able to promote and/or recover the delayed growth of the B. abortus strains through the antibiotic mixtures. The Brucella colonies, which assumed a pinkish color at their central part, were easily differentiated from other organisms. The MBS medium also allows the isolation of the Brucella strains even in contaminated specimens and/or in specimens containing small numbers of viable organisms. Moreover, this medium can be applied to environmental samples for the isolation of the Brucella strains, and it can thus offer epidemiologic traceback sources for the dissemination or transfer of diseases. Therefore, the MBS medium can be applied as a useful tool of important control measures in the eradication programs.

Differential diagnosis of Brucella abortus by real-time PCR based on a single-nucleotide polymorphisms

To diagnose brucellosis effectively, many genus- and species-specific detection methods based on PCR have been developed. With conventional PCR assays, real-time PCR techniques have been developed as rapid diagnostic tools. Among them, real-time PCR using hybridization probe (hybprobe) has been recommended for bacteria with high DNA homology among species, with which it is possible to make an accurate diagnosis by means of an amplification curve and melting peak analysis. A hybprobe for B. abortus was designed from a specific single-nucleotide polymorphism (SNP) on the fbaA gene. This probe only showed specific amplification of B. abortus from approximately the 14th cycle, given a melting peak at 69°C. The sensitivity of real-time PCR was revealed to be 20 fg/µl by 10-fold DNA dilution, and the detection limit was 4 CFU in clinical samples. This real-time PCR showed greater sensitivity than that of conventional PCR and previous real-time PCR based on Taqman probe. Therefore, this new real-time PCR assay could be helpful for differentiating B. abortus infection with rapidity and accuracy.

A new Brucella canis species-specific PCR assay for the diagnosis of canine brucellosis

Brucellosis is a zoonotic disease that is transmitted from animals to humans, and the development of a rapid, accurate, and widely available identification method is essential for diagnosing this disease. In this study, we developed a new Brucella canis species-specific (BcSS) PCR assay and evaluated its specificity and sensitivity. A specific PCR primer set was designed based on the BCAN_B0548-0549 region in chromosome II of B. canis. The PCR detection for B. canis included amplification of a 300-bp product that is, not found on other Brucella species or, genetically or serologically related bacteria. The detection limit of BcSS-PCR assay was 6pg/μl by DNA dilution, or 3×10(3) colony-forming units (CFU) in the buffy coats separated from whole blood experimentally inoculated with B. canis. Using the buffy coat in this PCR assay resulted in approximately 100-times higher sensitivity for B. canis as compared to detect directly from whole blood. This is the first report of a species-specific PCR assay to detect B. canis, and the new assay will provide a valuable tool for the diagnosis of B. canis infection.