Mutants in the lipopolysaccharide of Brucella ovis are attenuated and protect against B. ovis infection in mice

Brucella spp. are Gram-negative bacteria that behave as facultative intracellular parasites of a variety of mammals. This genus includes smooth (S) and rough (R) species that carry S and R lipopolysaccharides (LPS), respectively. S-LPS is a virulence factor, and mutants affected in the S-LPS O-polysaccharide (R mutants), core oligosaccharide or both show attenuation. However, B. ovis is naturally R and is virulent in sheep. We studied the role of B. ovis LPS in virulence by mutating the orthologues of wadA, wadB and wadC, three genes known to encode LPS core glycosyltransferases in S brucellae. When mapped with antibodies to outer membrane proteins (Omps) and R-LPS, wadB and wadC mutants displayed defects in LPS structure and outer membrane topology but inactivation of wadA had little or no effect. Consistent with these observations, the wadB and wadC but not the wadA mutants were attenuated in mice. When tested as vaccines, the wadB and wadC mutants protected mice against B. ovis challenge. The results demonstrate that the LPS core is a structure essential for survival in vivo not only of S brucellae but also of a naturally R Brucella pathogenic species, and they confirm our previous hypothesis that the Brucella LPS core is a target for vaccine development. Since vaccine B. melitensis Rev 1 is S and thus interferes in serological testing for S brucellae, wadB mutant represents a candidate vaccine to be evaluated against B. ovis infection of sheep suitable for areas free of B. melitensis.     

布鲁氏菌Omp25的表达及抗原性分析

克隆羊外膜蛋白Omp25基因,在大肠杆菌中表达、纯化,并对Omp25蛋白的抗原性进行分析.以布鲁氏菌染色体DNA模板,扩增Omp25基因,双酶切后克隆至pET32a上,在大肠杆菌ER2566 (DE3)中诱导表达,组氨酸结合树脂柱纯化,Western blotting鉴定Omp25蛋白的免疫原性.将Omp25克隆至载体pET32a,提取的重组质粒经PCR鉴定、双酶切鉴定和测序分析确定目的基因成功插入到了克隆载体中.将重组质粒转化于大肠杆菌ER2566 (DE3)中表达获得HIS融合蛋白,SDS-PAGE分析证明,表达产物为43 000的融合蛋白.Western blotting分析表明,所表达的蛋白具有免疫原性.结果表明,成功地表达并纯化了Omp25蛋白,而且纯化的蛋白具有一定的免疫原性.本试验为进一步研究Omp25蛋白的功能以及寻找布鲁氏菌的诊断性蛋白奠定了基础.     

Attenuation of a Brucella abortus mutant lacking a major 25 kDa outer membrane protein in cattle

OBJECTIVE: To determine the virulence of a Brucella abortus mutant, BA25, lacking a major 25 kd outer membrane protein (Omp25) in cattle. ANIMALS: 20 mixed-breed heifers in late gestation. PROCEDURE: 10 heifers were inoculated with 1 x 10(7) colony-forming units of the Omp25 mutant via the conjunctival sac, and an equal number were infected with the virulent parental strain B. abortus 2308. The delivery status of the dams was recorded, and colonization was assessed following necropsy. The ability of BA25 to replicate inside bovine phagocytes and chorionic trophoblasts was also evaluated in vitro because of the propensity of virulent brucellae to replicate inside these cells in vivo. RESULTS: The parental strain induced abortions in 5 of 10 inoculated cattle, whereas only 1 of 10 dams exposed to BA25 aborted. Brucella abortus strain 2308 colonized all of the cow-calf pairs and induced Brucella-specific antibodies in 100% of the dams. In contrast, BA25 was isolated by bacteriologic cultural technique from 30% of the calves and 50% of the inoculated dams (n = 10). Of the 10 heifers inoculated with BA25, 4 did not develop Brucella-specific antibodies nor were they colonized by the mutant strain. In bovine macrophages and chorionic trophoblasts, BA25 replicated in significantly lower numbers than the virulent parental strain (n = 3). CONCLUSIONS AND CLINICAL RELEVANCE: The 25 kd outer membrane protein may be an important virulence factor for B. abortus in cattle. The attenuation of the Omp25 mutant in cattle may involve the inability of BA25 to replicate efficiently in bovine phagocytes and chorionic trophoblasts.     

Immunogenicity of recombinant Omp31 from Brucella melitensis in rams and serum bactericidal activity against B. ovis

Detergent-extracted recombinant Omp31 (rOmp31 extract) from Brucella melitensis produced in Escherichia coli was previously identified as a protective immunogen against B. ovis in mice. In this study, we evaluated the immunogenicity of rOmp31extract in rams. This immunogen was emulsified in an oil adjuvant and administered three times with 4 and 8 weeks intervals. Antibody response was measured in serum by whole B. ovis ELISA. Specific antibodies to purified rOmp31 (pET-Omp31) were detected by Western blotting and indirect ELISA. In addition, isotype specific antibodies were measured in tears. Serum bactericidal activity against B. ovis in the presence of complement was measured in vitro. Cellular immune response was explored by intradermal testing with purified rOmp31. Immunization with rOmp31 extract induced IgG specific antibodies in serum able to bind to whole B. ovis cells. Furthermore, strong inhibition in a competitive ELISA (with an Omp31-specific monoclonal antibody) suggested that a proportion of Omp31-specific antibodies were directed against a loop containing a protective epitope. Serum antibodies killed efficiently B. ovis in vitro in the presence of either guinea pig or ovine serum. Tears had both IgG and IgA antibodies to equivalent titers. Finally, immunized rams showed skin reactivity to Omp31. These data demonstrate that B. melitensis Omp31, a protective antigen identified in the mouse model, induces antibody and cellular immune mechanisms in sheep.     

犬布氏杆菌外膜蛋白Omp31基因的原核表达

克隆了犬布氏杆菌外膜蛋白Omp31基因并构建原核表达系统,并对表达产物进行了初步的血清学鉴定。利用PCR技术扩增犬布氏杆菌RM6/66参考株Omp31基因,然后将其克隆到pGEMT-easy载体上进行测序。测序正确后,将该基因插入到pET-32a载体中构建原核表达载体,转化大肠杆菌BL21感受态细胞,诱导表达融合蛋白,Western blot分析融合蛋白的免疫反应性。结果构建了犬布氏杆菌Omp31基因的原核表达载体pET-Omp31,并且在大肠杆菌中成功表达融合蛋白,经Western Blot鉴定该蛋白能被犬布氏杆菌阳性血清所识别。犬布氏杆菌外膜蛋白Omp31的表达成功,为犬布氏杆菌病血清学诊断方法的建立提供了基础资料。     

Evaluation in mice of Brucella ovis attenuated mutants for use as live vaccines against B. ovis infection

Brucella ovis causes ram contagious epididymitis, a disease for which a specific vaccine is lacking. Attenuated Brucella melitensis Rev 1, used as vaccine against ovine and caprine brucellosis caused by B. melitensis, is also considered the best vaccine available for the prophylaxis of B. ovis infection, but its use for this purpose has serious drawbacks. In this work, two previously characterized B. ovis attenuated mutants (Δomp25d and Δomp22) were evaluated in mice, in comparison with B. melitensis Rev 1, as vaccines against B. ovis. Similarities, but also significant differences, were found regarding the immune response induced by the three vaccines. Mice vaccinated with the B. ovis mutants developed anti-B. ovis antibodies in serum of the IgG₁, IgG_2a and IgG_2b subclasses and their levels were higher than those observed in Rev 1-vaccinated mice. After an antigen stimulus with B. ovis cells, splenocytes obtained from all vaccinated mice secreted similar levels of TNF-α and IL12(p40) and remarkably high amounts of IFN-γ, a crucial cytokine in protective immunity against other Brucella species. By contrast, IL-1α -an enhancer of T cell responses to antigen- was present at higher levels in mice vaccinated with the B. ovis mutants, while IL-10, an anti-inflammatory cytokine, was significantly more abundant in Rev 1-vaccinated mice. Additionally, the B. ovis mutants showed appropriate persistence, limited splenomegaly and protective efficacy against B. ovis similar to that observed with B. melitensis Rev 1. These characteristics encourage their evaluation in the natural host as homologous vaccines for the specific prophylaxis of B. ovis infection.     

羊布鲁菌16MOmp25真核表达载体的构建

利用聚合酶链式反应（PCR）,以羊布鲁菌16M基因组为模板克隆Omp25基因,设计含有EcoRI和xhoI酶切位点的引物序列,定向克隆到真核表达载体pCMV-HA上,构建真核表达重组质粒pCMV-HA～Omp25。经测序及双酶切验证正确,证明成功构建了pCMV-HA—Omp25真核表达质粒,为表达纯化外膜蛋白Omp25,研究其功能奠定基础。     

布鲁菌外膜蛋白基因Omp22克隆测序及生物信息学分析

根据GenBank中的布鲁菌属特异性基因序列Omp22设计1对引物,以牛布鲁菌（Brucella）通辽市分离菌株染色体DNA作为模板,进行PCR扩增。将其定向插入克隆载体PGEM-7Zf,综合利用生物信息学软件（Danman和Vector NTI）、数据库（Prosite和PDB）和网络服务器对外膜蛋白Omp22进行基本性质分析、三维结构预测和功能预测。结果显示,用PCR方法扩增的Omp22基因长度为639bp,编码212个氨基酸,预测其蛋白质的相对分子质量约为22 000,同时用于预测B细胞线性表位的柔韧性和亲水性参数得到综合阐释,生物信息学预测和分析结果可为研究在布氏菌致病及机体免疫应答中外膜蛋白Omp22的结构与功能的关系提供丰富资料。     

布鲁菌外膜蛋白Omp31原核表达及抗原性分析

克隆羊布鲁菌的外膜蛋白Omp31基因,在大肠埃希菌中表达、纯化,并对Omp31蛋白的抗原性进行分析。以羊布鲁菌的染色体DNA为模板,扩增Omp31基因,双酶切后克隆至pET32a上,在大肠埃希菌ER2566(DE3)中诱导表达,组氨酸结合树脂柱纯化,Western blot鉴定Omp31蛋白的抗原性。将Omp31克隆至载体pET32a,提取的重组质粒经PCR鉴定、双酶切鉴定和测序分析确定目的基因成功插入到了克隆载体中。将重组质粒转化于大肠埃希菌ER2566(DE3)中表达获得HIS融合蛋白,SDS-PAGE分析证明,表达产物为43 ku的融合蛋白。Western blot结果表明,表达的蛋白具有与布鲁菌外膜蛋白相同的抗原性。     

High protection of mice against Brucella abortus by oral immunization with recombinant probiotic Lactobacillus casei vector vaccine,expressing the outer membrane protein OMP19 of Brucella species

Brucellosis is a zoonotic disease threatening the public health and hindering the trade of animals and their products, which has a negative impact on the economic development of a country. Vaccination is the most effective way to control brucellosis. The recombinant vector vaccines are promising candidates for immunization in humans and animals. In this study, the gene encoding OMP19 antigen was primarily amplified and cloned into an expression vector called pT1NX, and then transformed to L. casei cell via electroporation technique. The expression was confirmed using specific antibody against the recombinant protein via immunological screening tests such as western blot and immunofluorescence assay. Finally, recombinant L. casei was orally fed to mice and the results were further recorded, indicating that the mice group which received OMP19 through L. casei based vaccine represented a very good general and mucosal immune responses protective against challenges with virulent B. abortus 544 strain compared with negative control recipient groups. Therefore, the vaccine produced in this research plan can be a very good candidate for protection against brucellosis.     

Induction of immune response in mice with a DNA vaccine encoding outer membrane protein (omp31) of Brucella melitensis 16M

Brucellosis causes serious economic losses to goat farmers by way of reproductive losses in the form of abortions and stillbirths. Nucleic acid vaccines provide an exciting approach for antigen presentation to the immune system. In this study, we evaluated the ability of DNA vaccine encoding the omp31 protein of Brucella melitensis 16M to induce cellular and humoral immune responses in mice. We constructed eukaryotic expression vectors called pTargeTomp31, encoding outer membrane protein (omp31) of B. melitensis 16M. pTargeTomp31 was injected intramuscularly three times, at 3-week intervals in groups of mice 6 weeks of age. pTargeTomp31 induced good antibody response in ELISA . pTargeTomp31 elicited a T-cell-proliferative response and also induced a strong gamma interferon production upon restimulation with either the omp31 antigen or B. melitensis 16M extract. We also demonstrate that animals immunized with this plasmid elicited a strong and long-lived memory immune response. Furthermore, pTargeTomp31 elicited a typical T-helper 1-dominated immune response in mice, as determined by immunoglobulin G isotype analysis. This vaccine also provided the moderate degree of protection to the mice. This study for the first time focuses on DNA immunization of a gene from B. melitensis. These results may lead to the development of a DNA-based vaccine for the control of brucellosis in goats.     

Protection of mice against Chlamydophila abortus infection with a bacteriophage-mediated DNA vaccine expressing the major outer membrane protein

A bacteriophage-delivered DNA vaccine against Chlamydophila abortus was constructed by cloning a eukaryotic cassette containing the ompA gene (which expresses the Major Outer Membrane Protein) into a bacteriophage lambda vector. Four groups, each of 20 BALB/c mice were inoculated separately with the phage vaccine, a conventional DNA vaccine based on the same ompA expression cassette, a live attenuated vaccine (strain 1B) or the empty phage vector. The phage and DNA vaccines and empty phage vector were administered intramuscularly on days 0, 14 and 28; the attenuated vaccine was given once on day 0. Half the animals in each group were challenged on day 42 by intraperitoneal injection of live C. abortus and sacrificed on day 49. Phage-vaccinated mice developed moderate antibody levels against C. abortus and yielded higher levels of IFN-γ and IL-2 compared with the attenuated live vaccine group. Clearance of chlamydiae from spleens was significantly better in the attenuated vaccine group compared with the phage vaccine group, while both groups were significantly superior to the DNA vaccine and control groups (p<0.01). Although levels of protection in the mouse model were lower in phage-vaccinated animals, than in 1B vaccinated animals, phage vaccines offer several other advantages, such as easier handling and safety, potentially cheaper production and no chance of reversion to virulence. Although these are preliminary results in a model system, it is possible that with further optimisation immunization with phage vaccines may provide a novel way to improve protection against C. abortus infection and trials in large animals are currently being initiated.     

Putative outer membrane autotransporter protein influences survival of Brucella suis in BALB/c mice

In Gram-negative bacteria, autotransporters are secreted proteins able to translocate themselves through the inner- and outer-membranes to the cell surface or to the extracellular environment. The influence of the putative outer membrane autotransporter (OmaA) protein to the persistence of Brucella suis was investigated. Sequence analyses revealed that the OmaA protein of B. suis strain 1330 consists of a signal peptide, a passenger alpha-domain, and a transporter beta-domain, which are the characteristic components of an autotransporter protein. The transporter beta-domain consists of 14 individual amphipathic beta-strands, and a 46-amino acid long alpha-helix lies upstream of the transporter domain, indicating that the B. suis OmaA is a type-I classical autotransporter. BLAST search and phylogenetic analyses revealed that the B. suis OmaA protein shares more similarities with adhesin autotransporter proteins than with protease autotransporter proteins of other bacteria. An OmaA-deficient strain (1330DeltaomaA) was generated by disrupting the DNA region encoding the passenger alpha-domain of the OmaA protein of B. suis wild type strain 1330. The omaA gene encoding the full-length OmaA protein was cloned and used to complement the OmaA-deficient strain. The OmaA-deficient strain did not differ from the wild type strain in terms of persistence in J774 macrophage cell line 24 and 48 h after inoculation, or clearance from the spleens of BALB/c mice at 1 week after intraperitoneal inoculation. These observations suggest that the function of the OmaA protein is dispensable during the acute phase of B. suis infection. However, the OmaA-deficient strain was cleared from the spleens of BALB/c mice faster than the wild type strain between the third and the ninth week after intraperitoneal inoculation, indicating that the OmaA may be important during the chronic phase of B. suis infection. Relative to the BALB/c mice injected with saline, those vaccinated with the OmaA-deficient strain exhibited 3.0-3.9log10 colony forming units protection against a challenge with B. suis strain 1330. This study is the first report correlating an autotransporter protein deficiency with persistence of B. suis in vitro and in vivo.     

布鲁氏菌外膜蛋白OMP25的原核表达与鉴定

布鲁氏菌为革兰氏阴性的胞内寄生菌,根据其生物学特性和侵袭宿主的倾向性可分为七个型:即马耳他布鲁氏菌(B.melitensis)、流产布鲁氏菌(B.abortus)、猪布鲁氏菌(B.suis)、绵羊布鲁氏菌(B.ovis)、犬布鲁氏菌(B.canis)、沙林鼠布鲁氏菌(B.neotomae)和水生哺乳动物布鲁氏菌(B.maris).     

Protective effects of recombinant Brucella abortus Omp28 against infection with a virulent strain of Brucella abortus 544 in mice

The outer membrane proteins (OMPs) of Brucella (B.) abortus have been extensively studied, but their immunogenicity and protective ability against B. abortus infection are still unclear. In the present study, B. abortus Omp28, a group 3 antigen, was amplified by PCR and cloned into a maltose fusion protein expression system. Recombinant Omp28 (rOmp28) was expressed in Escherichia coli and was then purified. Immunogenicity of rOmp28 was confirmed by Western blot analysis with Brucella-positive mouse serum. Furthermore, humoral- or cell-mediated immune responses measured by the production of IgG1 or IgG2a in rOmp28-immunized mice and the ability of rOmp28 immunization to protect against B. abortus infection were evaluated in a mouse model. In the immunogenicity analysis, the mean titers of IgG1 and IgG2a produced by rOmp28-immunized mice were 20-fold higher than those of PBS-treated mice throughout the entire experimental period. Furthermore, spleen proliferation and bacterial burden in the spleen of rOmp28-immunized mice were approximately 1.5-fold lower than those of PBS-treated mice when challenged with virulent B. abortus. These findings suggest that rOmp28 from B. abortus is a good candidate for manufacturing an effective subunit vaccine against B. abortus infection in animals.     

Enhanced efficacy of recombinant Brucella abortus RB51 vaccines against B. melitensis infection in mice

Brucella abortus strain RB51 is an attenuated rough strain, currently being used as the official live vaccine for bovine brucellosis in the USA and several other countries. In strain RB51, the wboA gene, encoding a glycosyltransferase required for the O-side chain synthesis, is disrupted by an IS711 element. Recently, we have demonstrated that strain RB51WboA, RB51 complemented with a functional wboA gene, remains rough but expresses low quantities of O-side chain in the cytoplasm. Mice vaccinated with strain RB51WboA develop greatly enhanced resistance against challenge with B. abortus virulent strain 2308. We have also demonstrated that overexpression of Cu/Zn superoxide dismutase (SOD) in strain RB51 (RB51SOD) significantly increases its vaccine efficacy against strain 2308 challenge. In this study, we constructed a new recombinant strain, RB51SOD/WboA, that over expresses SOD with simultaneous expression of O-side chain in the cytoplasm. We tested the vaccine potential of strains RB51SOD, RB51WboA, RB51SOD/WboA against challenge with virulent Brucella melitensis 16M and B. abortus 2308 in mice. In comparison with strain RB51, strain RB51SOD induced better protection against strain 2308, but not strain 16M, challenge. Similar to strain RB51WboA, vaccination with strain RB51SOD/WboA resulted in complete protection of the mice from infection with strain 2308. When challenged with strain 16M, mice vaccinated with either strain RB51WboA or strain RB51SOD/WboA were significantly better protected than those vaccinated with strain RB51 or RB51SOD. These results suggest that strains RB51WboA and RB51SOD/WboA are good vaccine candidates for inducing enhanced protection against B. melitensis infection.     

Immunological characterization of the major outer membrane protein of Haemophilus somnus

Antigens and molecular mass diversity of the Haemophilus somnus major outer membrane protein (MOMP) were investigated. The molecular mass of the MOMP of 53 strains of H. somnus varied from 43 to 33 kDa and four MOMP MAb reactivity patterns were detected in immunoblot analysis and immunodot assay. The molecular mass and MAb reactivity data were used for preliminary grouping of H. somnus strains. Disease strains fell into groups 1 and 3, including two of three Group 3 subgroups, whereas strains from asymptomatic carriers were found in all the four groups and three subgroups. Immunoblot analysis with convalescent phase serum showed strain specific reactivity with MOMPs from three isolates used to reproduce disease in cattle. The reaction with the MOMP was only detectable at dilutions of 1:100 or less, whereas the same convalescent sera showed strong reactivity at dilutions of 1:1000 (or more) with other H. somnus antigens. The data suggest that the bovine immune response to the MOMP during infection is weak and is directed to antigenically variable determinants in a strain-specific manner. This may be important in evaluating the role of the antibody response to MOMPs in protective immunity.     

Molecular characterization of the major outer membrane protein of Haemophilus somnus

The major outer membrane protein (MOMP) of Haemophilus somnus shows antigenic and molecular mass diversity that forms the basis of a preliminary grouping system for H. somnus strains. In this study, the gene encoding MOMP of H. somnus strain 8025 was cloned in three overlapping fragments by PCR techniques, and then sequenced. The gene consists of a 1164-bp open reading frame encoding a deduced 380-amino acid protein with a 19-amino acid signal sequence, giving a mature protein with a calculated molecular mass of 39,913 Da. Significant homology was found between MOMP and porin protein sequences of bacteria in Pasteurellaceae species. When expressed in Escherichia coli, the protein from the MOMP gene directed by the T7 promoter was identical in size (approximately 40 kDa) to native MOMP and reacted with MOMP-specific antibodies. Comparisons of the MOMP gene sequences from six unrelated strains of H. somnus to that of strain 8025 revealed that the genes of three MOMP type 1 strains were highly conserved with that of strain 8025 in length and sequence. However, two MOMP type 3c strains and one MOMP type 3a strain differed markedly from the MOMP of strain 8025 in their 3'-terminal halves. Their deduced MOMP amino acid sequences differed in sequence (3c, 80.5 and 82.7% identity; 3a, 62.4% identity) and in length (3c, 384 and 376; 3a, 316), indicating that the molecular differences are the basis of antigenicity and molecular mass differences of H. somnus MOMP. In the predicted MOMP secondary structure, the variable sequences primarily mapped to putative surface-exposed loops, and a variable and surface-exposed epitope of MOMP-specific antibody was identified in the seventh-largest loop. These findings are useful for understanding the structural and immunological characteristics of H. somnus.     

Bacteriologic and histologic features in mice after intranasal inoculation of Brucella melitensis

OBJECTIVE: To characterize effects of intranasal inoculation of virulent Brucella melitensis strain 16M in mice. ANIMALS: Female Balb/c mice, 6 to 8 weeks old. PROCEDURE: Studies were designed to elucidate gross morphologic lesions, bacterial burden in target organs, and histologic changes in tissues following experimental intranasal inoculation of mice with B melitensis 16M, which could be used to characterize a model for testing vaccine efficacy. RESULTS: Measurable splenomegaly was evident at 3 and 7 weeks after inoculation. A demonstrable increase in splenic colony-forming units (CFU) from infected mice increased over time with increasing dose when comparing inocula of 10(3), 10(4), and 10(5) CFU. Recovery of brucellae from the lungs was possible early in infection with 10(1), 10(3), and 10(5) CFU, but only the group inoculated with 10(5) CFU consistently yielded quantifiable bacteria. At a dose of 10 CFU, few organisms were located in the spleen. Bacteria were recovered up to 140 days after inoculation in mice given 10(3) CFU. At an inoculum of 10(5) CFU, bacterial counts were highest early in infection. Histologic examination of tissues revealed an increase in white pulp and marginal zone in the spleen and lymphohistiocytic hepatitis. CONCLUSION AND CLINICAL RELEVANCE: Changes in the spleen and liver increased with increases in dose and with increased time following intranasal inoculation with B melitensis 16M. Surprisingly, histologic changes were not observed in the lungs of inoculated mice.