The sheathed flagellum of Brucella melitensis is involved in persistence in a murine model of infection.

Persistence infection is the keystone of the ruminant and human diseases called brucellosis and Malta fever, respectively, and is linked to the intracellular tropism of Brucella spp. While described as non-motile, Brucella spp. have all the genes except the chemotactic system, necessary to assemble a functional flagellum. We undertook to determine whether these genes are expressed and are playing a role in some step of the disease process. We demonstrated that in the early log phase of a growth curve in 2YT nutrient broth, Brucella melitensis expresses genes corresponding to the basal (MS ring) and the distal (hook and filament) parts of the flagellar apparatus. Under these conditions, a polar and sheathed flagellar structure is visible by transmission electron microscopy (TEM). We evaluated the effect of mutations in flagellar genes of B. melitensis encoding various parts of the structure, MS ring, P ring, motor protein, secretion apparatus, hook and filament. None of these mutants gave a discernible phenotype as compared with the wild-type strain in cellular models of infection. In contrast, all these mutants were unable to establish a chronic infection in mice infected via the intraperitoneal route, raising the question of the biological role(s) of this flagellar appendage.

Use of detergent extracts of Brucella abortus RB51 to detect serologic responses in RB51-vaccinated cattle.

Serologic responses to the newly introduced rough Brucella abortus vaccine strain RB51 have been determined in a dot-blot format using gamma-irradiated RB51 cells as the antigen. Because gamma-irradiated cells are not easily prepared and the signal from cells was not always reliable, an alternative antigen was sought. Detergent extracts of B. abortus RB51 were prepared using zwittergent 3-14, Triton X-100, and sodium dodecyl sulfate (SDS) and examined in a dot-blot format. Zwittergent 3-14 extracts and gamma-irradiated RB51 cells gave the same titers. Unlike gamma-irradiated RB51 cells, zwittergent 3-14 extracts produced signals consistently, and the signals were easily interpreted. Triton X-100 extracts interfered with signal development, and SDS extracts resulted in a high background signal. Western blot analyses revealed several outer membrane proteins in the zwittergent 3-14 extract. The major antigens in the extract had apparent molecular weights of <20,000.

Identification of an IS711 element interrupting the wboA gene of Brucella abortus vaccine strain RB51 and a PCR assay to distinguish strain RB51 from other Brucella species and strains.

Brucella abortus vaccine strain RB51 is a natural stable attenuated rough mutant derived from the virulent strain 2308. The genetic mutations that are responsible for the roughness and the attenuation of strain RB51 have not been identified until now. Also, except for an assay based on pulsed-field gel electrophoresis, no other simple method to differentiate strain RB51 from its parent strain 2308 is available. In the present study, we demonstrate that the wboA gene encoding a glycosyltransferase, an enzyme essential for the synthesis of O antigen, is disrupted by an IS711 element in B. abortus vaccine strain RB51. Exploiting this feature, we developed a PCR assay that distinguishes strain RB51 from all other Brucella species and strains tested.

Genetic characterization of a Tn5-disrupted glycosyltransferase gene homolog in Brucella abortus and its effect on lipopolysaccharide composition and virulence.

We constructed a rough mutant of Brucella abortus 2308 by transposon (Tn5) mutagenesis. Neither whole cells nor extracted lipopolysaccharide (LPS) from this mutant, designated RA1, reacted with a Brucella O-side-chain-specific monoclonal antibody (MAb), Bru-38, indicating the absence of O-side-chain synthesis. Compositional analyses of LPS from strain RA1 showed reduced levels of quinovosamine and mannose relative to the levels in the parental, wild-type strain, 2308. We isolated DNA flanking the Tn5 insertion in strain RA1 by cloning a 25-kb XbaI genomic fragment into pGEM-3Z to create plasmid pJM6. Allelic exchange of genomic DNA in B. abortus 2308 mediated by electroporation of pJM6 produced kanamycin-resistant clones that were not reactive with MAb Bru-38. Southern blot analysis of genomic DNA from these rough clones revealed Tn5 in a 25-kb XbaI genomic fragment. A homology search with the deduced amino acid sequence of the open reading frame disrupted by Tn5 revealed limited homology with various glycosyltransferases. This B. abortus gene has been named wboA. Transformation of strain RA1 with a broad-host-range plasmid bearing the wild-type B. abortus wboA gene resulted in the restoration of O-side-chain synthesis and the smooth phenotype. B. abortus RA1 was attenuated for survival in mice. However, strain RA1 persisted in mice spleens for a longer time than the B. abortus vaccine strain RB51, but as expected, neither strain induced antibodies specific for the O side chain.

On the presence and organization of open reading frames of the nonmotile pathogen Brucella abortus similar to class II, III, and IV flagellar genes and to LcrD virulence superfamily.

Brucellae are pathogenic, nonmotile bacteria that are facultative intracellular parasites. Little is known about the genetics of these bacteria. Open reading frames from Brucella abortus with similarity to the flagellin, M-ring, and hook of related bacteria were discovered. The open reading frames encode proteins of three of the four flagellum gene classes, namely II, III, and IV. A homolog of the LcrD virulence superfamily was also found. This superfamily is involved in type III protein secretion. B. abortus has the potential for motility and type III secretion.

The effects of magainin 2, cecropin, mastoparan and melittin on Brucella abortus.

The effect of the alpha-helical polycationic peptides magainin 2, melittin, mastoparan and cecropin on the viability of Brucella abortus 544 (type species), B. abortus S19 (vaccine strain) and B. abortus S2308 (vaccine challenge strain) was determined. Rough mutants of these strains and the rough candidate vaccine strain B. abortus RB51 were also tested. S. typhimurium was used as a control. The peptides did not affect the viability of B. abortus smooth strains but some of the peptides affected viability of the rough strains. Magainin 2 at a concentration of 100 micrograms ml-1 did not reduce the viability of the rough B. abortus strains. Cecropin at a concentration of 15 micrograms ml-1 reduced the viability of the rough strains by approximately 10-fold. Mastoparan at a concentration of 50 micrograms ml-1 reduced the viability of the rough strains by approximately 100-fold. Melittin at a concentration of 20 micrograms ml-1 reduced the viability of the rough strains of B. abortus by approximately 1000-fold. The brucellae were significantly more resistant to all the cationic peptides than was S. typhimurium.

Enhancement of the Brucella AMOS PCR assay for differentiation of Brucella abortus vaccine strains S19 and RB51.

Because the brucellosis eradication program uses slaughter and quarantine as control measures, it would benefit from faster methods of bacterial identification. Distinguishing vaccine strains from strains that cause infections among vaccinated herds in the field is essential. To accomplish this, our PCR-based, species-specific assay (B. J. Bricker and S. M. Halling, J. Clin. Microbiol. 32:2660-2666, 1994) was updated to identify Brucella abortus vaccine strains S19 and RB51. Three new oligonucleotide primers were added to the five-primer multiplex Brucella AMOS PCR assay. Identification is based on the number and sizes of six products amplified by PCR.

Differentiation of Brucella abortus bv. 1, 2, and 4, Brucella melitensis, Brucella ovis, and Brucella suis bv. 1 by PCR.

Several PCR assays which identify the genus Brucella but do not discriminate among species have been reported. We describe a PCR assay that comprises five oligonucleotide primers which can identify selected biovars of four species of Brucella. Individual biovars within a species are not differentiated. The assay can identify three biovars (1, 2, and 4) of B. abortus, all three biovars of B. melitensis, biovar 1 of B. suis, and all B. ovis biovars. These biovars include all of the Brucella species typically isolated from cattle in the United States, a goal of the present research. The assay exploits the polymorphism arising from species-specific localization of the genetic element IS711 in the Brucella chromosome. Identity is determined by the size(s) of the product(s) amplified from primers hybridizing at various distances from the element. The performance of the assay with U.S. field isolates was highly effective. When 107 field isolates were screened by the described method, there was 100% agreement with the identifications made by conventional methods. Six closely related bacteria (Agrobacterium radiobacter, Agrobacterium rhizogenes, Ochrobactrum anthropi, Rhizobium leguminosarum, Rhizobium meliloti, and Rhodospirillum rubrum) and two control bacteria (Bordetella bronchiseptica and Escherichia coli) tested negative by the assay.

Characterization and occurrence of two repeated palindromic DNA elements of Brucella spp.: Bru-RS1 and Bru-RS2.

Two repeated DNA elements of 103 bp and 105 bp were discovered in brucellae and designated Bru-RS1 and Bru-RS2, respectively. The two elements are palindromic, are 65% similar in sequence, form two families of elements that are slightly divergent in sequence, appear to be intergenic, and are found, collectively, in more than 35 copies in brucellae. These elements are bounded by perfect or nearly perfect inverted repeats. A third copy of the terminal repeat is found within the elements and is the terminus for several truncated copies of the Bru-RS1 family. Hybridization patterns for the elements among brucellae were unique. The elements are dispersed, highly conserved among brucellae, and hot-spots for insertion by IS711.

Molecular gene cloning and nucleotide sequencing and construction of an aroA mutant of Pasteurella haemolytica serotype A1.

The aroA gene of Pasteurella haemolytica serotype A1 was cloned by complementation of the aroA mutation in Escherichia coli K-12 strain AB2829. The nucleotide sequence of a 2.2-kb fragment encoding aroA predicted an open reading frame product 434 amino acids long that shows homology to other bacterial AroA proteins. Several strategies to inactivate aroA were unsuccessful. Gene replacement was finally achieved by constructing a replacement plasmid with aroA inactivated by insertion of a P. haemolytica ampicillin resistance fragment into a unique NdeI site in aroA. A hybrid plasmid was constructed by joining the aroA replacement plasmid with a 4.2-kb P. haemolytica plasmid which encodes streptomycin resistance. Following PhaI methylation, the replacement plasmid was introduced by electroporation into P. haemolytica NADC-D60, a plasmidless strain of serotype 1A. Allelic exchange between the replacement plasmid and the chromosome of P. haemolytica gave rise to an ampicillin-resistant mutant which grew on chemically defined P. haemolytica medium supplemented with aromatic amino acids but failed to grow on the same medium lacking tryptophan. Southern blot analysis confirmed that aroA of the mutant was inactivated and that the mutant was without a plasmid.

Embracing human fallibilty: On forgiving oneself and forgiving others.

Forgiving another and forgiving oneself are both experiences that bring relief and a sense of a new beginning in life. The relationship between these two phenomena is explored through a phenomenological and hermeneutical interpretation of one person's story of reconciliation. It is argued that guilt and shame give rise to the search for forgiveness, and that in either type of forgiveness one moves into a deeper and more profound connection with one's own life as well as the lives of others.

Sequence and characterization of an insertion sequence, IS711, from Brucella ovis.

The nucleotide (nt) sequence of a previously discovered insertion in Brucella ovis was determined and found to have the hallmarks of an insertion sequence (IS). The element, designated IS711, of 842 bp, is similar in G + C content to that of the Brucella genome and is bounded by 20-bp imperfect inverted repeats (IR). The element appears to duplicate the nt TA of a consensus target site, YTAR (R, purines; Y, pyrimidines). When the complete nt sequence of four elements and 300 bp of the 3' ends of five other elements were compared to IS711 and to each other, minor nt sequence variations were found amongst most of them. Similar to several other transposable elements, IS711 has overlapping ORFs rather than one long ORF extending the length of the element. Even though only ten B. ovis IS711 elements were characterized, in three cases we found these elements flanked by either identical or similar nt sequences. This suggests that some target sites are hot spots for insertion and that some of the elements may be duplicated by mechanisms other than transposition. No DNA or protein database entries had an obvious resemblance to either IS711 or its deduced gene products.

Immune responses and protection against infection and abortion in cattle experimentally vaccinated with mutant strains of Brucella abortus.

Twenty-four 10-month-old Polled Hereford heifers were inoculated SC with live cells of one of the following strains of Brucella abortus: S19 delta 31K (n = 4), S19 delta SOD (n = 4), RB51 (n = 4), and strain 19 (n = 6); controls (n = 6) were given saline solution. Heifers given the deletion mutants S19 delta 31K and S19 delta SOD, and those given strain 19 developed antibody responses to B abortus and cutaneous reactions to brucellin. Heifers given strain RB51 did not develop antibodies that reacted in the standard tube agglutination test, but sera reacted in tests, using an antibody dot-blot assay containing RB51 antigen. The S19 delta 31K and S19 delta SOD strains of B abortus isolated from lymph node tissue after vaccination did not differ genetically from the master stock strain. All heifers were bred naturally at 16 to 17 months of age, and were challenge-exposed intraconjunctivally with virulent B abortus strain 2308 during the fifth month of pregnancy. All vaccinated heifers were protected (ie, none aborted and none had B abortus isolated from their tissues after parturition). Calves born from vaccinated dams were free of B abortus. Antibody responses in heifers after challenge exposure were an indicator of immunity. All 5 control heifers (nonvaccinated) developed serum antibodies after challenge exposure; 3 aborted, and 1 delivered a small, weak calf at 8.5 months of gestation. Thus live mutant strains of B abortus can induce protective immunity when given at 10 months of age, and strain RB51 is a strong candidate for further testing.

Construction of a Brucella abortus RecA mutant and its survival in mice.

To determine if RecA plays a role in the virulence of Brucella abortus, a B. abortus RecA mutant was constructed and its survival was examined in mice. The recA gene was cloned from a B. abortus genomic DNA library by complementation of an Escherichia coli recA mutant in the presence of methyl methanesulfonate (MMS). The nucleotide sequence of recA was determined and the deduced protein sequence possesses extensive conservation with other RecA proteins of Gram-negative bacteria. A deletion plasmid was constructed in a suicide vector by deleting a segment of recA and inserting a kanamycin resistance gene. The deletion plasmid was introduced into B. abortus strain 2308, a virulent strain, by electroporation. Replacement of recA with the kanamycin resistance fragment was confirmed by Southern blot analysis. The RecA mutant was more sensitive than the parental strain to killing by MMS. When administered intraperitoneally to BALB/c mice, numbers of bacteria per spleen were consistently lower in animals infected with the RecA mutant than with the parental strain. However, both the RecA mutant and parental strain persisted in mice through 100 days post-infection. These results indicate that RecA is not crucial for persistence of B. abortus in mice.

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.

Bacterial survival, lymph node changes, and immunologic responses of cattle vaccinated with standard and mutant strains of Brucella abortus.

Forty-eight cattle were used in 4 experiments; 6-week-old calves in experiments 1-3 (n = 24) and 10-month-old heifers in experiment 4 (n = 24). In experiments 1-3, 7 groups of 3 calves each were inoculated SC with 5 strains of Brucella abortus: virulent strain 2308 (2 groups), vaccine strain 19 (2 groups), and mutant strains RB51. 19 delta 31K, and 19 delta SOD. Sera and lymph node tissues were examined at 2-week intervals for evidence of infection. At postinoculation (PI) week 12, 2 calves in each group were given dexamethasone for 5 days. Calves were then euthanatized and lymphoid tissue, spleen, liver, and bone marrow were examined for evidence of B abortus. Calves given strain 2308 had large numbers of bacteria in their lymph nodes, marked granulomatous lymphadenitis in the deep cortex, and loss of lymphoid cells in superficial cortical areas. In addition, they had high serum antibody titers at PI week 16. Calves given strain 19, or genetic mutants derived from strain 19, cleared bacteria from lymph nodes more rapidly, had less lymphoid destruction, and developed antibody titers that did not persist for 16 weeks. The RB51 strain (rough) was cleared most rapidly from lymphoid tissues and induced serum antibody responses only to the core of the lipopolysaccharide molecule. Treatment of calves with dexamethasone did not cause B abortus to reappear in tissues of any calves, nor did serum antibody titers increase.(ABSTRACT TRUNCATED AT 250 WORDS)

Construction of Cu-Zn superoxide dismutase deletion mutants of Brucella abortus: analysis of survival in vitro in epithelial and phagocytic cells and in vivo in mice.

Cu-Zn superoxide dismutase (SOD) deletion mutants of Brucella abortus S2308, a virulent strain, and S19, a vaccine strain, were generated by gene replacement. A deletion plasmid, pBA delta sodknr, was constructed by excising the Cu-Zn SOD gene (Cu-Zn sod) from a 2.3-kb B. abortus DNA fragment of plasmid pBA20-1527 and inserting a 1.4-kb DNA fragment encoding kanamycin resistance into the Cu-Zn sod excision site. The deletion plasmid was introduced into B. abortus by electroporation, and Southern blot analysis confirmed that the antibiotic resistance fragment had replaced Cu-Zn sod in kanamycin-resistant colonies. The survival and growth of Cu-Zn SOD mutant strains were compared with that of the parental strains in HeLa cells and in the mouse macrophagelike cell line J774. The survival and growth of the Cu-Zn SOD mutant strains were similar to those of their respective parental strains in HeLa and J774 cell lines. The kinetics of infection with these strains were examined in BALB/c mice. The splenic levels of the S19 Cu-Zn SOD mutant recovered from intraperitoneally infected BALB/c mice were approximately 10-fold lower than those of the parental strain through 26 days postinfection. Thereafter, infection sharply declined in both groups, and by 105 days postinfection, no organisms were detected. The splenic levels of the S2308 Cu-Zn SOD mutant were lower than those of wild-type S2308-infected mice. The spleen weights of mice infected with the S2308 Cu-Zn SOD mutant were consistently lower than those of wild-type S2308-infected mice. These results suggest that the antioxidant enzyme Cu-Zn SOD plays a role in the survival and pathogenicity of B. abortus in vivo.

Exploring self-forgiveness.

This article presents the results of a phenomenological study of the experience of self-forgiveness. On the basis of in-depth interviews with seven subjects, self-forgiveness is described not as an achievement but rather as a gift where one moves from estrangement and "brokenness" to a sense of at-homeness.