A Mycoplasma gallisepticum Glycerol ABC Transporter Involved in Pathogenicity.

MalF has been shown to be required for virulence in the important avian pathogen Mycoplasma gallisepticum To characterize the function of MalF, predicted to be part of a putative ABC transporter, we compared metabolite profiles of a mutant with a transposon inserted in malF (MalF-deficient ST mutant 04-1; ΔmalF) with those of wild-type bacteria using gas chromatography-mass spectrometry and liquid chromatography-mass spectrometry. Of the substrates likely to be transported by an ABC transport system, glycerol was detected at significantly lower abundance in the ΔmalF mutant, compared to the wild type. Stable isotope labeling using [U-13C]glycerol and reverse transcription-quantitative PCR analysis indicated that MalF was responsible for the import of glycerol into M. gallisepticum and that, in the absence of MalF, the transcription of gtsA, which encodes a second transporter, GtsA, was upregulated, potentially to increase the import of glycerol-3-phosphate into the cell to compensate for the loss of MalF. The loss of MalF appeared to have a global effect on glycerol metabolism, suggesting that it may also play a regulatory role, and cellular morphology was also affected, indicating that the change to glycerol metabolism may have a broader effect on cellular organization. Overall, this study suggests that the reduced virulence of the ΔmalF mutant is due to perturbed glycerol uptake and metabolism and that the operon including malF should be reannotated as golABC to reflect its function in glycerol transport.IMPORTANCE Many mycoplasmas are pathogenic and cause disease in humans and animals. M. gallisepticum causes chronic respiratory disease in chickens and infectious sinusitis in turkeys, resulting in economic losses in poultry industries throughout the world. Expanding our knowledge about the pathogenesis of mycoplasma infections requires better understanding of the specific gene functions of these bacteria. In this study, we have characterized the metabolic function of a protein involved in the pathogenicity of M. gallisepticum, as well as its effect on expression of selected genes, cell phenotype, and H2O2 production. This study is a key step forward in elucidating why this protein plays a key role in virulence in chickens. This study also emphasizes the importance of functional characterization of mycoplasma proteins, using tools such as metabolomics, since prediction of function based on homology to other bacterial proteins is not always accurate.

Mycoplasma bovis mbfN Encodes a Novel LRR Lipoprotein That Undergoes Proteolytic Processing and Binds Host Extracellular Matrix Components.

Mycoplasma bovis causes serious infections in ruminants, leading to huge economic losses. Lipoproteins are key components of the mycoplasma membrane and are believed to function in nutrient acquisition, adherence, enzymatic interactions with the host, and induction of the host's immune response to infection. Many genes of M. bovis have not been assigned functions, in part because of their low sequence similarity with other bacteria, making it difficult to extrapolate gene functions. This study examined functions of a surface-localized leucine-rich repeat (LRR) lipoprotein encoded by mbfN of M. bovis PG45. Homologs of MbfN were detected as 48-kDa peptides by Western blotting in all the strains of M. bovis included in this study, with the predicted 70-kDa full-length polypeptide detected in some strains. Sequence analysis of the gene revealed the absence in some strains of a region encoding the carboxyl-terminal 147 amino acids found in strain PG45, which could account for the variation detected by immunoblotting. In silico analysis of MbfN suggested that it may have an adhesion-related function. In vitro binding assays confirmed MbfN to be a fibronectin and heparin-binding protein. Disruption of mbfN in M. bovis PG45 significantly reduced (P = 0.033) the adherence of M. bovis PG45 to MDBK cells in vitro, demonstrating the role of MbfN as an adhesin.IMPORTANCE Experimental validation of the putative functions of genes in M. bovis will advance our understanding of the basic biology of this economically important pathogen and is crucial in developing prevention strategies. This study demonstrated the extracellular matrix binding ability of a novel immunogenic lipoprotein of M. bovis, and the role of this protein in adhesion by M. bovis suggests that it could play a role in virulence.

Autoimmune-Disease-Prone NOD Mice Help To Reveal a New Genetic Locus for Reducing Pulmonary Disease Caused by Mycoplasma pulmonis.

Mycoplasmas are bacterial pathogens of a range of animals, including humans, and are a common cause of respiratory disease. However, the host genetic factors that affect resistance to infection or regulate the resulting pulmonary inflammation are not well defined. We and others have previously demonstrated that nonobese diabetic (NOD) mice can be used to investigate disease loci that affect bacterial infection and autoimmune diabetes. Here we show that NOD mice are more susceptible than C57BL/6 (B6) mice to infection with Mycoplasma pulmonis, a natural model of pulmonary mycoplasmosis. The lungs of infected NOD mice had higher loads of M. pulmonis and more severe inflammatory lesions. Moreover, congenic NOD mice that harbored different B6-derived chromosomal intervals enabled identification and localization of a new mycoplasmosis locus, termed Mpr2, on chromosome 13. These congenic NOD mice demonstrated that the B6 allele for Mpr2 reduced the severity of pulmonary inflammation caused by infection with M. pulmonis and that this was associated with altered cytokine and chemokine concentrations in the infected lungs. Mpr2 also colocalizes to the same genomic interval as Listr2 and Idd14, genetic loci linked to listeriosis resistance and autoimmune diabetes susceptibility, respectively, suggesting that allelic variation within these loci may affect the development of both infectious and autoimmune disease.

Mycoplasma bovis antibody dynamics in naturally exposed dairy calves according to two diagnostic tests.

BACKGROUND: Inexpensive and convenient diagnostic tests for use in clinical work and for the surveillance of infection with Mycoplasma bovis are in demand. The objective of this longitudinal field study was to gain knowledge about the dynamics of antibodies against M. bovis in sera from naturally exposed calves with and without different clinical signs, measured by two different ELISA tests. RESULTS: A total of 83 calves were subject to between one and five blood samples and clinical examinations using a standard protocol during five herd visits to each of four outbreak dairy herds. The blood samples were analysed for the presence of antibodies against M. bovis using the commercial IgG ELISA test BioX K302 (BioX) and an in-house indirect IgG ELISA test (MilA ELISA). Linear mixed models were used to describe and compare the antibody dynamics as measured by the two tests in relation to the disease status and age of the animals. The BioX ELISA response was below the recommended cut-off (37 ODC%) for the entire study period in many of the calves. The estimated mean ODC% increased slowly but did not reach the recommended individual animal cut-off in three of the four herds. The highest estimated ODC% was not reached until the calf was 110-130 days old. The MilA ELISA response rose above the recommended cut-off (135 antibody units (AU)) in almost all calves, and in two herds, the estimated mean was above the individual animal cut-off shortly after the birth of the calf. The highest estimated antibody concentration was reached when the calf was approximately 60 days old. Disease status of the calf was not significantly associated with the results of either test. CONCLUSIONS: We conclude that the BioX ELISA cannot be recommended for use in calves below 3 months of age. The MilA ELISA was able to detect antibodies shortly after birth (i.e. from approximately 3 weeks of age and onwards) and is therefore a more sensitive test for M. bovis exposure in young calves. Neither ELISA seemed able to differentiate between calves with arthritis and/or otitis media, and respiratory disease.

The oppD Gene and Putative Peptidase Genes May Be Required for Virulence in Mycoplasma gallisepticum.

Relatively few virulence genes have been identified in pathogenic mycoplasmas, so we used signature-tagged mutagenesis to identify mutants of the avian pathogen Mycoplasma gallisepticum with a reduced capacity to persist in vivo and compared the levels of virulence of selected mutants in experimentally infected chickens. Four mutants had insertions in one of the two incomplete oppABCDF operons, and a further three had insertions in distinct hypothetical genes, two containing peptidase motifs and one containing a member of a gene family. The three hypothetical gene mutants and the two with insertions in oppD1 were used to infect chickens, and all five were shown to have a reduced capacity to induce respiratory tract lesions. One oppD1 mutant and the MGA_1102 and MGA_1079 mutants had a greatly reduced capacity to persist in the respiratory tract and to induce systemic antibody responses against M. gallisepticum The other oppD1 mutant and the MGA_0588 mutant had less capacity than the wild type to persist in the respiratory tract but did elicit systemic antibody responses. Although M. gallisepticum carries two incomplete opp operons, one of which has been acquired by horizontal gene transfer, our results suggest that one of the copies of oppD may be required for full expression of virulence. We have also shown that three hypothetical genes, two of which encode putative peptidases, may be required for full expression of virulence in M. gallisepticum. None of these genes has previously been shown to influence virulence in pathogenic mycoplasmas.

Immune responses to vaccination and infection with Mycoplasma gallisepticum in turkeys.

Infection with Mycoplasma gallisepticum induces severe lymphoproliferative lesions in multiple sites along the respiratory tract in chickens and turkeys. These immunopathological responses have been well-characterized in chickens, but have not been studied closely in turkeys. The aim of the study described here was to examine the immune responses of turkeys after live vaccination and infection with M. gallisepticum. In a strain comparison study, the mean log10 antibody titre of birds exposed to an aerosol culture of M. gallisepticum strain Ap3AS was found to be significantly higher at day 14 than that of birds exposed to strain 100809/31. In a dose-response study, there was a significant difference in the mean log10 antibody titre between birds exposed to mycoplasma broth and birds exposed to the highest dose of strain Ap3AS at day 7 after exposure. Immunohistochemical analysis of the tracheal mucosa and the air sacs revealed similar patterns of distribution of CD4+ and CD8+ lymphocytes to those seen in the tracheal mucosa of chickens, implicating these cell types in the pathogenesis of respiratory mycoplasmosis in turkeys. Turkeys that had been vaccinated with M. gallisepticum GapA+ ts-11 had significantly higher antibody titres than unvaccinated birds at both 7 and 14 days after challenge with strain Ap3AS. Vaccination with GapA+ ts-11 protected against the lymphoproliferative response to infection with virulent M. gallisepticum in both the tracheal mucosa and the air sacs, suggesting that this strain may be a useful vaccine candidate for use in turkeys.

Effect of differing +2 amino acids on export of a heterologous PhoA lipoprotein in Mycoplasma gallisepticum.

The significance of the amino acid adjacent to the amino terminal cysteine of lipoproteins, the +2 amino acid, has been well documented in E. coli and there have also been limited studies on Gram-positive bacteria. In this study we investigated whether there was any preference for specific residues and any targeting role attributable to different residues following the cysteine at the amino terminus in lipoproteins of Mycoplasma gallisepticum. There were found to be distinct preferences in this position that vary considerably from the preferences seen in Gram-positive and Gram-negative bacteria. The effect of different amino acids at the +2 position was studied using the pTAP vector, which has been shown to express PhoA as a lipoprotein. Replacement of the threonine at the +2 position in the PhoA lipoprotein with hydrophobic amino acids resulted in higher levels of expression of alkaline phosphatase, while replacement with hydrophilic amino acids resulted in lower levels of expression of alkaline phosphatase. Changes in the +2 amino acid did not appear to alter export of the PhoA lipoprotein to the membrane fraction, but a difference was seen in susceptibility to proteolysis in PhoA lipoproteins with differing +2 amino acids. This is the first study to examine the role of the +2 amino acid in mycoplasma lipoproteins and establish a difference between M. gallisepticum and Gram-positive and Gram-negative bacteria and will assist in optimization of the design of recombinant lipoprotein genes in mycoplasmas for maximal levels of expression and stability on the cell surface.

Evaluation of an IgG Enzyme-Linked Immunosorbent Assay as a Serological Assay for Detection of Mycoplasma bovis Infection in Feedlot Cattle.

Mycoplasma bovis is a pathogen of emerging significance in cattle throughout the world that is causing a range of diseases, including mastitis, arthritis, and pneumonia. The limited availability and efficacy of current diagnostic and prophylactic tools for its control and its increasing antimicrobial resistance are contributing to its increasing importance in beef and dairy cattle. We have developed an indirect IgG enzyme-linked immunosorbent assay (ELISA) based on a recombinant fragment of the MilA protein and have shown its potential as an effective diagnostic tool. To more comprehensively estimate the diagnostic sensitivity and specificity of this IgG ELISA for detection of infection with M. bovis in cattle and to define a suitable cutoff for use in the field, we further assessed its performance in experimentally infected calves in a closed beef herd and by applying Bayesian latent class modeling to laboratory testing results from 7,448 cattle entering Australian feedlots. The most effective cutoff points were estimated to be 68.6 antibody units (AU) for experimentally infected calves and to be 58.7 AU for a closed adult herd. Under field conditions, in feedlot cattle the globally optimal cutoff was estimated to be 105 AU. At this cutoff, the diagnostic sensitivity was 94.3% (95% probability interval [PI], 89.9% to 99.6%) with a diagnostic specificity of 94.4% (95% PI, 90.3% to 99.6%). Applying this 105 AU cutoff, 13.1% of cattle were seropositive for infection with M. bovis on entry into feedlots, and 73.5% were seropositive when followed up approximately 6 weeks later suggesting a high risk of infection shortly after entry into feedlots.

Disruption of the membrane nuclease gene (MBOVPG45_0215) of Mycoplasma bovis greatly reduces cellular nuclease activity.

UNLABELLED: Although the complete genome sequences of three strains of Mycoplasma bovis are available, few studies have examined gene function in this important pathogen. Mycoplasmas lack the biosynthetic machinery for the de novo synthesis of nucleic acid precursors, so nucleases are likely to be essential for them to acquire nucleotide precursors. Three putative membrane nucleases have been annotated in the genome of M. bovis strain PG45, MBOVPG45_0089 and MBOVPG45_0310, both of which have the thermonuclease (TNASE_3) functional domain, and MBOVPG45_0215 (mnuA), which has an exonuclease/endonuclease/phosphatase domain. While previous studies have demonstrated the function of TNASE_3 domain nucleases in several mycoplasmas, quantitative comparisons of the contributions of different nucleases to cellular nuclease activity have been lacking. Mapping of a library of 319 transposon mutants of M. bovis PG45 by direct genome sequencing identified mutants with insertions in MBOVPG45_0310 (the Δ0310 mutant) and MBOVPG45_0215 (the Δ0215 mutant). In this study, the detection of the product of MBOVPG45_0215 in the Triton X-114 fraction of M. bovis cell lysates, its cell surface exposure, and its predicted signal peptide suggested that it is a surface-exposed lipoprotein nuclease. Comparison of a ΔmnuA mutant with wild-type M. bovis on native and denatured DNA gels and in digestion assays using double-stranded phage λ DNA and closed circular plasmid DNA demonstrated that inactivation of this gene abolishes most of the cellular exonuclease and endonuclease activity of M. bovis. This activity could be fully restored by complementation with the wild-type mnuA gene, demonstrating that MnuA is the major cellular nuclease of M. bovis. IMPORTANCE: Nucleases are thought to be important contributors to virulence and crucial for the maintenance of a nutritional supply of nucleotides in mycoplasmas that are pathogenic in animals. This study demonstrates for the first time that of the three annotated cell surface nuclease genes in an important pathogenic mycoplasma, the homologue of the thermostable nuclease identified in Gram-positive bacteria is responsible for the majority of the nuclease activity detectable in vitro.

Development of a Mycoplasma gallisepticum infection model in turkeys.

Mycoplasma gallisepticum causes chronic respiratory disease in chickens and is also highly pathogenic in turkeys. Several live attenuated M. gallisepticum vaccines are available for prevention of disease in chickens but they are considered to be either not safe or not efficacious in turkeys. The studies presented here aimed to develop a suitable infection model in turkeys, a prerequisite for development of a vaccine against M. gallisepticum for turkeys. Two wild-type Australian M. gallisepticum strains, Ap3AS and 100809/31, were used and their capacity to induce lesions was evaluated in 5-week-old to 6-week-old turkeys exposed to aerosols of these strains. Gross air sac lesion scores in the group exposed to Ap3AS were significantly greater than those in the group exposed to 100809/31 (P < 0.05). Histological tracheal lesion scores and tracheal mucosal thicknesses were significantly greater in birds exposed to either strain than in the unexposed birds (P < 0.05), but no significant differences were observed between the two infected groups. In a subsequent experiment, 6-week-old to 7-week-old turkeys were exposed to different doses of M. gallisepticum Ap3AS. Serology and M. gallisepticum re-isolation performed 14 days after infection showed that all birds exposed to Ap3AS were positive by rapid serum agglutination and by culture. Gross air sac lesion scores in the groups exposed to the highest dose, 8.17 × 10(8) colour-changing units Ap3AS/ml, as well as a 10-fold lower dose were significantly more severe than in the uninfected control group. Lesion scores and tracheal mucosal thicknesses were significantly greater in birds exposed to Ap3AS than in the unexposed birds (P < 0.05). However, no significant differences were seen in tracheal mucosal thicknesses or lesion scores between the groups exposed to the different doses of Ap3AS. This study has established a reliable challenge model for M. gallisepticum infection in turkeys, which will be useful for evaluation of potential M. gallisepticum vaccine candidates for this species.

Analysis of the complete genomic sequences of two virus subpopulations of the Australian infectious bronchitis virus vaccine VicS.

Although sequencing of the 3' end of the genome of Australian infectious bronchitis viruses (IBVs) has shown that their structural genes are distinct from those of IBVs found in other countries, their replicase genes have not been analysed. To examine this, the complete genomic sequences of the two subpopulations of the VicS vaccine, VicS-v and VicS-del, were determined. Compared with VicS-v, the more attenuated VicS-del strain had two non-synonymous changes in the non-structural protein 6 (nsp6), a transmembrane (TM) domain that may participate in autocatalytic release of the 3-chymotrypsin-like protease, a polymorphic difference at the end of the S2 gene, which coincided with the body transcription-regulating sequence (B-TRS) of mRNA 3 and a truncated open reading frame for a peptide encoded by gene 4 (4b). These genetic differences could be responsible for the differences between these variants in pathogenicity in vivo, and replication in vitro. Phylogenetic analysis of the whole genome showed that VicS-v and VicS-del did not cluster with strains from other countries, supporting the hypothesis that Australian IBV strains have been evolving independently for some time, and analyses of individual polymerase peptide and S glycoprotein genes suggested a distant common ancestor with no recent recombination. This study suggests the potential role of the TM domain in nsp6, the integrity of the S2 protein and the B-TRS 3, and the putative accessory protein 4b, as well as the 3' untranslated region, in the virulence and replication of IBV and has provided a better understanding of relationships between the Australian vaccine strain of IBV and those used elsewhere.

Development and Validation of TaqMan Real-Time Polymerase Chain Reaction Assays for the Quantitative and Differential Detection of Wild-Type Infectious Laryngotracheitis Viruses from a Glycoprotein G-Deficient Candidate Vaccine Strain.

Infectious laryngotracheitis (ILT) is a significant upper respiratory tract disease of chickens with a worldwide distribution. Differentiating between wild-type and vaccine strains of ILT virus (ILTV) would be useful for enhancing disease control, and in the early stages of a disease outbreak molecular diagnostic tools for the detection and differentiation of the circulating virus could be applied. This study developed TaqMan real-time PCR (qPCR) assays to detect and differentiate the glycoprotein G (gG)-deficient (ΔgG) ILTV candidate vaccine strain of ILTV from ILTV strains that contain the gG gene. The gG+ve and gG-ve ILTV TaqMan assays were used in individual and multiplex format to detect, differentiate, and quantitate ILTV DNA in laboratory and clinical samples. The assays were highly sensitive and highly specific, with a detection limit of 10 viral template copies for each assay. Low interassay coefficients of variation were recorded (0.021-0.042 and 0.013-0.039) for gG+ve and gG-ve TaqMan assays, respectively. The multiplex assay was successfully used to examine the replication kinetics of wild-type and ΔgG strains of ILTV in cultured leghorn male hepatoma cells and embryonated hen eggs under coinfection conditions. The results showed that the TaqMan qPCR assay, along with the ΔgG ILTV vaccine, has the potential to be used in a "Differentiating Infected from Vaccinated Animals" strategy for the control and eradication of ILT.

Cross-protective immune responses between genotypically distinct lineages of infectious laryngotracheitis viruses.

Recent phylogenetic studies have identified different genotypic lineages of infectious laryngotracheitis virus (ILTV), and these lineages can recombine in the field. The emergence of virulent recombinant field strains of ILTV by natural recombination between commercial vaccines belonging to different genotypic lineages has been reported recently. Despite the use of attenuated ILTV vaccines, these recombinant viruses were able to spread and cause disease in commercial poultry flocks, raising the question of whether the different lineages of ILTV can induce cross-protective immune responses. This study examined the capacity of the Australian-origin A20 ILTV vaccine to protect against challenge with the class 8 ILTV recombinant virus, the genome of which is predominantly derived from a heterologous genotypic lineage. Following challenge, birds vaccinated via eyedrop were protected from clinical signs of disease and pathological changes in the tracheal mucosa, although they were not completely protected from viral infection or replication. In contrast, the challenge virus induced severe clinical signs and tracheal pathology in unvaccinated birds. This is the first study to examine the ability of a vaccine from the Australian lineage to protect against challenge with a virus from a heterologous lineage. These results suggest that the two distinct genotypic lineages of ILTV can both induce cross-protection, indicating that current commercial vaccines are still likely to assist in control of ILTV in the poultry industry, in spite of the emergence of novel recombinants derived from different genotypic lineages.

Evaluation of the safety and efficacy of the novel Mycoplasma gallisepticum vaccine, Vaxsafe MG304, after spray-vaccination of 1-day-old specific pathogen-free chicks.

Mycoplasma gallisepticum causes chronic respiratory disease in poultry. A novel vaccine, Vaxsafe MG304 (the ts-304 strain), has greater protective efficacy in chickens than the Vaxsafe MG (strain ts-11) vaccine when delivered by eye drop at 3 weeks of age. Applying this vaccine in the hatchery to 1-day-old birds, using mass administration methods, would improve animal welfare and reduce labour costs associated with handling individual birds. This study assessed the protection provided by vaccination with Vaxsafe MG304 after administration to 1-day-old chicks. Chicks were administered a single dose of the vaccine to assess the efficacy of either a high dose (107.0 colour changing units, CCU) or a low dose (105.7 CCU) after eye drop or spray (in water or gel) administration against experimental challenge with virulent M. gallisepticum strain Ap3AS at 7 weeks of age. The vaccine was able to colonise the palatine cleft of chicks after vaccination by eye drop (at both doses) or by spray (in water or gel) (at the high dose). The high dose of vaccine, when delivered by eye drop or spray, was shown to be safe and induced a serological response and protective immunity (as measured by tracheal mucosal thickness and air sac lesion scores) against challenge. Vaccination of 1-day-old chicks with Vaxsafe MG304 by eye drop induced protective immunity equivalent to vaccination at 3 weeks of age. Vaxsafe MG304 was also protective when applied by both coarse- and gel spray methods at the higher dose and is therefore a suitable live attenuated vaccine for use in 1-day-old chicks.

The Mycoplasma gallisepticum virulence factor lipoprotein MslA is a novel polynucleotide binding protein.

Although lipoproteins of mycoplasmas are thought to play a crucial role in interactions with their hosts, very few have had their biochemical function defined. The gene encoding the lipoprotein MslA in Mycoplasma gallisepticum has recently been shown to be required for virulence, but the biochemical function of this gene is not known. Although this gene has no significant sequence similarity to any gene of known function, it is located within an operon in M. gallisepticum that contains a homolog of a gene previously shown to be a nonspecific exonuclease. We mutagenized both genes to facilitate expression in Escherichia coli and then examined the functions of the recombinant proteins. The capacity of MslA to bind polynucleotides was examined, and we found that the protein bound single- and double-stranded DNA, as well as single-stranded RNA, with a predicted binding site of greater than 1 nucleotide but less than or equal to 5 nucleotides in length. Recombinant MslA cleaved into two fragments in vitro, both of which were able to bind oligonucleotides. These findings suggest that the role of MslA may be to act in concert with the lipoprotein nuclease to generate nucleotides for transport into the mycoplasma cell, as the remaining genes in the operon are predicted to encode an ABC transporter.

MalF is essential for persistence of Mycoplasma gallisepticum in vivo.

There is limited understanding of the molecular basis of virulence in the important avian pathogen Mycoplasma gallisepticum. To define genes that may be involved in colonization of chickens, a collection of mutants of the virulent Ap3AS strain of M. gallisepticum were generated by signature-tagged transposon mutagenesis. The collection included mutants with single insertions in the genes encoding the adhesin GapA and the cytadherence-related protein CrmA, and Western blotting confirmed that these mutants did not express these proteins. In two separate in vivo screenings, two GapA-deficient mutants (ST mutants 02-1 and 06-1) were occasionally recovered from birds, suggesting that GapA expression may not always be essential for persistence of strain Ap3AS. CrmA-deficient ST mutant 33-1 colonized birds poorly and had reduced virulence, indicating that CrmA was a significant virulence factor, but was not absolutely essential for colonization. ST mutant 04-1 contained a single transposon insertion in malF, a predicted ABC sugar transport permease, and could not be reisolated even when inoculated by itself into a group of birds, suggesting that expression of MalF was essential for persistence of M. galliseptium strain Ap3AS in infected birds.

Differential transcription patterns in wild-type and glycoprotein G-deleted infectious laryngotracheitis viruses.

Infectious laryngotracheitis virus (ILTV) causes severe respiratory disease in poultry throughout the world. Recently the role of glycoprotein G (gG) in ILTV pathogenesis has been investigated and it has been shown to have chemokine-binding activity. An ILTV vaccine candidate deficient in gG has been developed and the deletion has been shown to alter the host's immune response to the virus. To understand the effect of the gG gene on transcription of other viral genes, the global expression profile of 72 ILTV genes in gG-deleted and wild-type ILTVs were investigated both in vivo and in vitro using quantitative reverse transcription-polymerase chain reaction. Several genes were differentially expressed in the different viruses in LMH cell cultures or in the tracheas of infected birds, and the expression of a number of genes, including ICP27, gC, gJ, Ul7 and UL40, differed significantly both in vivo and in vitro, suggesting that they had direct or indirect roles in virulence. This study has provided insights into the interactions between gG and other ILTV genes that may have a role in virulence.

Combination of differential growth at two different temperatures with a quantitative real-time polymerase chain reaction to determine temperature-sensitive phenotype of Mycoplasma synoviae.

Mycoplasma synoviae infections result in significant economic losses in the chicken and turkey industries. A commercially available live temperature-sensitive (ts (+)) vaccine strain MS-H has been found to be effective in controlling M. synoviae infections in commercial layer and broiler breeder farms in various countries, including Australia. Detection and differentiation of MS-H from field strains (ts (-)) and from ts (-) MS-H reisolates in vaccinated flocks is vital in routine flock status monitoring. At present microtitration is the only available technique to determine the ts phenotype of M. synoviae. This technique is time consuming and not amenable to automation. In the present study, a quantitative real-time polymerase chain reaction (Q-PCR) was combined with simultaneous culturing of M. synoviae at two different temperatures (33°C and 39.5°C) to determine the ts phenotype of 22 Australian M. synoviae strains/isolates. The M. synoviae type strain WVU-1853 was also included for comparison. A ratio of the copy numbers of the variable lipoprotein haemagglutinin (vlhA) gene at the two temperatures was calculated and a cut-off value was determined and used to delineate the ts phenotype. In all M. synoviae strains/isolates tested in this study, the ts phenotype determined using Q-PCR was in agreement with that determined using conventional microtitration. Combination of Q-PCR with differential growth at two different temperatures is a rapid, reliable and accurate technique that could be used as an effective tool in laboratories actively involved in ts phenotyping of M. synoviae strains/isolates.

Effects of administration of tylosin on the duration of protective immunity induced by the novel Mycoplasma gallisepticum vaccine strain, Vaxsafe MG ts-304, in chickens.

Prophylactic use of antimicrobials after administration of live vaccines is a common practice in the poultry industry, but the impact of this on the efficacy and duration of protection induced by the vaccines is unknown. The effect of treatment with tylosin on the efficacy of vaccination with the live attenuated M. gallisepticum strain, Vaxsafe MG ts-304, was examined. This vaccine has previously been shown to provide protection for at least 57 weeks. Ten-week-old specific-pathogen-free chickens were vaccinated with Vaxsafe MG ts-304 and then treated with tylosin at a therapeutic dose in drinking water from 6 weeks after vaccination. Tylosin was withdrawn 5 days before challenge with M. gallisepticum strain Ap3AS at 6, 10, 14, 18 or 22 weeks after vaccination. Air sac lesions, tracheal mucosal thickening and the concentrations of serum antibodies against M. gallisepticum were assessed at 2 weeks after challenge. The protection induced by the vaccine in the 6 weeks before initiation of tylosin treatment persisted for 18 weeks after vaccination, with lesions only observed in the air sacs of vaccinated birds that had been treated with tylosin after challenge at 22 weeks after vaccination. Concentrations of serum antibodies against M. gallisepticum began to decrease in vaccinated birds that had been treated with tylosin from 16 weeks after vaccination. This study has suggested that treatment of chickens with tylosin after vaccination with a live attenuated mycoplasma vaccine reduces the duration of protective immunity afforded by the vaccine.

A novel transposon construct expressing PhoA with potential for studying protein expression and translocation in Mycoplasma gallisepticum.

BACKGROUND: Mycoplasma gallisepticum is a major poultry pathogen and causes severe economic loss to the poultry industry. In mycoplasmas lipoproteins are abundant on the membrane surface and play a critical role in interactions with the host, but tools for exploring their molecular biology are limited. RESULTS: In this study we examined whether the alkaline phosphatase gene (phoA ) from Escherichia coli could be used as a reporter in mycoplasmas. The promoter region from the gene for elongation factor Tu (ltuf) and the signal and acylation sequences from the vlhA 1.1 gene, both from Mycoplasma gallisepticum , together with the coding region of phoA , were assembled in the transposon-containing plasmid pISM2062.2 (pTAP) to enable expression of alkaline phosphatase (AP) as a recombinant lipoprotein. The transposon was used to transform M. gallisepticum strain S6. As a control, a plasmid containing a similar construct, but lacking the signal and acylation sequences, was also produced (pTP) and also introduced into M. gallisepticum . Using a colorimetric substrate for detection of alkaline phosphatase activity, it was possible to detect transformed M. gallisepticum . The level of transcription of phoA in organisms transformed with pTP was lower than in those transformed with pTAP, and alkaline phosphatase was not detected by immunoblotting or enzymatic assays in pTP transformants, eventhough alkaline phosphatase expression could be readily detected by both assays in pTAP transformants. Alkaline phosphatase was shown to be located in the hydrophobic fraction of transformed mycoplasmas following Triton X-114 partitioning and in the membrane fraction after differential fractionation. Trypsin proteolysis confirmed its surface exposure. The inclusion of the VlhA lipoprotein signal sequence in pTAP enabled translocation of PhoA and acylation of the amino terminal cysteine moiety, as confirmed by the effect of treatment with globomycin and radiolabelling studies with [14C]palmitate. PhoA could be identified by mass-spectrometry after separation by two-dimensional electrophoresis. CONCLUSION: This is the first study to express PhoA as a lipoprotein in mycoplasmas. The pTAP plasmid will facilitate investigations of lipoproteins and protein translocation across the cell membrane in mycoplasmas, and the ease of detection of these transformants makes this vector system suitable for the simultaneous screening and detection of cloned genes expressed as membrane proteins in mycoplasmas.