Phylogenomic analysis of Mycoplasma bovis from Belgian veal, dairy and beef herds.

M. bovis is one of the leading causes of respiratory disease and antimicrobial use in cattle. The pathogen is widespread in different cattle industries worldwide, but highest prevalence is found in the veal industry. Knowledge on M. bovis strain distribution over the dairy, beef and veal industries is crucial for the design of effective control and prevention programs, but currently undocumented. Therefore, the present study evaluated the molecular epidemiology and genetic relatedness of M. bovis isolates obtained from Belgian beef, dairy and veal farms, and how these relate to M. bovis strains obtained worldwide. Full genomes of one hundred Belgian M. bovis isolates collected over a 5-year period (2014-2019), obtained from 27 dairy, 38 beef and 29 veal farms, were sequenced by long-read nanopore sequencing. Consensus sequences were used to generate a phylogenetic tree in order to associate genetic clusters with cattle sector, geographical area and year of isolation. The phylogenetic analysis of the Belgian M. bovis isolates resulted in 5 major clusters and 1 outlier. No sector-specific M. bovis clustering was identified. On a world scale, Belgian isolates clustered with Israeli, European and American strains. Different M. bovis clusters circulated for at least 1.5 consecutive years throughout the country, affecting all observed industries. Therefore, the high prevalence in the veal industry is more likely the consequence of frequent purchase from the dairy and beef industry, than that a reservoir of veal specific strains on farm would exist. These results emphasize the importance of biosecurity in M. bovis control and prevention.

Dynamics of the within-herd prevalence of Mycoplasma bovis intramammary infection in endemically infected dairy herds.

We aimed to identify the dynamics of the within-herd prevalence of Mycoplasma (M.) bovis intramammary infection (IMI) in four dairy herds, estimate prevalence of M. bovis in colostrum and clinical mastitis cases and compare M. bovis strains from calves' respiratory and cow clinical mastitis samples. Within a six-month study period, cow composite milk samples (CMS) were collected three times during routine milk recording, first milking colostrum samples from all calving cows and udder quarter milk samples from clinical mastitis cases. Calf respiratory samples were collected from calves with respiratory disease. Pooled milk samples were analysed for M. bovis with the Mastitis 4B polymerase chain reaction (PCR) test kit (DNA Diagnostic A/S). Prevalence estimates were calculated with Bayesian framework in R statistical programme. cg-MLST was used for M. bovis genotyping. In Herd I and II first testing M. bovis IMI within-herd prevalence (95 % credibility interval (CI)) was 4.7 % (2.9; 6.8) and 3.4 % (2.3; 4.6), changing to 1.0 % (0.1; 1.7) and 0.8 % (0.1; 1.4) in Herd I and 0.4 % (0.0; 0.7) in Herd II at the next samplings. In Herd III and IV first testing M. bovis IMI within-herd prevalence was 12.3 % (9.7; 15.2) and 7.8 % (6.2; 9.5), changing to 4.6 % (3.0; 6.4) and 3.2 % (1.9; 4.8) in Herd III and to 2.8 % (1.9; 3.8) and 4.9 % (3.6; 6.4) in Herd IV at the next samplings. The estimated prevalence of M. bovis in colostrum ranged between 1.7 % (0.2; 2.8) and 4.7 % (2.7; 7.1) and in clinical mastitis cases between 3.7 % (1.7; 6.4) and 11.0 % (7.5; 15.2) in the study herds. M. bovis strains isolated from cows and calves clustered within herds indicating possible transmission of M. bovis between dairy cows and calves. Prevalence of M. bovis in colostrum and clinical mastitis cases as well as the within-herd prevalence of M. bovis IMI was low in endemically infected dairy herds.

Genomics-based epidemiology of bovine Mycoplasma bovis strains in Israel.

BACKGROUND: Mycoplasma bovis is an important etiologic agent of bovine mycoplasmosis affecting cattle production and animal welfare. In the past in Israel, M. bovis has been most frequently associated with bovine respiratory disease (BRD) and was rarely isolated from mastitis. This situation changed in 2008 when M. bovis-associated mastitis emerged in Israel. The aim of this study was to utilize whole genome sequencing to evaluate the molecular epidemiology and genomic diversity of M. bovis mastitis-associated strains and their genetic relatedness to M. bovis strains isolated from BRD in local feedlot calves and those imported to Israel from different European countries and Australia. RESULTS: Phylogeny based on total single nucleotide polymorphism (SNP) analysis of 225 M. bovis genomes clearly showed clustering of isolates on the basis of geographical origin: strains isolated from European countries clustered together and separately from Australian and Chinese isolates, while Israeli isolates were found in the both groups. The dominant genotype was identified among local mastitis-associated M. bovis isolates. This genotype showed a close genomic relatedness to M. bovis strains isolated from calves imported to Israel from Australia, to original Australian M. bovis strains, as well as to strains isolated in China. CONCLUSIONS: This study represents the first comprehensive high-resolution genome-based epidemiological analysis of M. bovis in Israel and illustrates the possible dissemination of the pathogen across the globe by cattle trade.

Comparison of multilocus sequence types found among North American isolates of Mycoplasma bovis from cattle, bison, and deer, 2007-2017.

A prior multilocus sequence typing (MLST) study reported that Mycoplasma bovis isolates from North American bison possess sequence types (STs) different from those found among cattle. The 42 bison isolates evaluated were obtained in 2007 or later, whereas only 19 of 94 (~20%) of the available cattle isolates, with only 1 from North America, were from that same time. We compared STs of additional, contemporary, North American cattle isolates with those from bison, as well as isolates from 2 North American deer, all originating during the same timeframe, to more definitively assess potential strain-related host specificity and expand our understanding of the genetic diversity of M. bovis. From 307 isolates obtained between 2007 and 2017 (209 from cattle, 96 from bison, 2 from deer), we identified 49 STs, with 39 found exclusively in cattle and 5 exclusively in bison. Four STs were shared between bison and cattle isolates; one ST was found in cattle and in a deer. There was no clear association between ST and the health status of the animal of origin. An MLST-based phylogeny including 41 novel STs identified in our study reveals that STs found in bison fall within several divergent lineages that include STs found exclusively in cattle.

Bovine Epithelial in vitro Infection Models for Mycoplasma bovis.

Mycoplasma bovis causes bovine mycoplasmosis. The major clinical manifestations are pneumonia and mastitis. Recently an increase in the severity of mastitis cases was reported in Switzerland. At the molecular level, there is limited understanding of the mechanisms of pathogenicity of M. bovis. Host-pathogen interactions were primarily studied using primary bovine blood cells. Therefore, little is known about the impact of M. bovis on other cell types present in infected tissues. Clear in vitro phenotypes linked to the virulence of M. bovis strains or tissue predilection of specific M. bovis strains have not yet been described. We adapted bovine in vitro systems to investigate infection of epithelial cells with M. bovis using a cell line (MDBK: Madin-Darby bovine kidney cells) and two primary cells (PECT: bovine embryonic turbinate cells and bMec: bovine mammary gland epithelial cells). Two strains isolated before and after the emergence of severe mastitis cases were selected. Strain JF4278 isolated from a cow with mastitis and pneumonia in 2008 and strain L22/93 isolated in 1993 were used to assess the virulence of M. bovis genotypes toward epithelial cells with particular emphasis on mammary gland cells. Our findings indicate that M. bovis is able to adhere to and invade different epithelial cell types. Higher titers of JF4278 than L22/93 were observed in co-cultures with cells. The differences in titers reached between the two strains was more prominent for bMec cells than for MDBK and PECT cells. Moreover, M. bovis strain L22/93 induced apoptosis in MDBK cells and cytotoxicity in PECT cells but not in bMec cells. Dose-dependent variations in proliferation of primary epithelial cells were observed after M. bovis infection. Nevertheless, an indisputable phenotype that could be related to the increased virulence toward mammary gland cells is not obvious.

Prevalência de Mycoplasma bovis em rebanhos de vacas leiteiras / Prevalence of Mycoplasma bovis in dairy herds

Mycoplasma é um patógeno altamente contagioso, podendo causar mastite, pneumonia, artrite, entre outras enfermidades. Seu isolamento requer meios e condições específicas devido ao seu crescimento fastidioso. Devido à complexidade do seu diagnóstico, acredita-se que a real prevalência de casos de mastite por micoplasma seja subestimada. O objetivo do presente estudo foi identificar a prevalência de Mycoplasma bovis em diferentes rebanhos de bovinos leiteiros no estado de São Paulo. O estudo foi dividido em fase de triagem, na qual colheram-se amostras de 67 tanques de expansão e a coleta individual, na qual propriedades positivas para M. bovis foram visitadas e colhidas amostras de leite de todos os animais com mastite clínica e subclínica. O diagnóstico laboratorial foi feito por meio da PCR e cultivo microbiológico específico. A prevalência de M. bovis encontrada na fase de triagem foi de 1,4%. Na fase individual, todas as amostras de leite, procedentes de propriedade positiva para M. bovis no tanque de expansão, foram negativas, o que permite concluir pela baixa prevalência do agente nas condições do presente estudo.(AU)

Mycoplasma is a highly contagious pathogen, which can cause mastitis, pneumonia, arthritis, among other diseases. Its isolation requires specific means and conditions due to its fastidious growth. Due to the complexity of its diagnosis, it is believed that the real prevalence of mastitis cases by Mycoplasma is underestimated. The objective of the present study was to identify the prevalence of Mycoplasma bovis in ​​different dairy herds in the state of São Paulo. The study was divided into a screening phase in which samples were collected from 67 expansion tanks and individual collection, in which positive properties for M. bovis were visited and collected milk samples from all animals with clinical and subclinical mastitis. The laboratory diagnosis was made through PCR and specific microbiological culture. The prevalence of M. bovis found in the screening phase was 1.4%. In the individual phase, all milk samples from M. bovis positive property in the expansion tank were negative, which allows to conclude the low prevalence of the agent under the conditions of the present study.(AU)

DNA microarray assay and real-time PCR as useful tools for studying the respiratory tract Mycoplasma populations in young dairy calves.

PURPOSE: With more than 120 species, the genus Mycoplasma is one of the largest taxa in the class Mollicutes, a group of micro-organisms that are characterized by apparent simplicity and to which important animal pathogens belong. Mycoplasmabovis is the most frequently identified pathogenic Mycoplasma in cattle; however, the prevalence of other Mycoplasma species living in calves' airways is poorly understood. The aim of this work was to characterize the respiratory tract mycoplasma populations in calves on one of the largest dairy farms in Italy using a real-time PCR assay and a DNA microarray assay. METHODOLOGY: A total of 49 nasal swabs and 49 trans-tracheal aspirations from non-vaccinated veal calves were analysed. Genomic DNA was extracted from the samples and then tested using a real-time PCR targeting the oppD gene of M. bovis and a DNA microarray that was able to identify more than 70 Mycoplasma species. RESULTS: Forty-two out of 49 calves tested positive for Mycoplasma spp. (85.7 %). None of the samples tested positive for M. bovis. A majority (73.5 %) of the 98 samples tested positive for M. dispar, while 8 samples tested positive for M. bovirhinis (8.2 %). CONCLUSION: Our results expand our knowledge regarding the diversity of Mycoplasma populations in the respiratory airways of very young veal calves and add data regarding M. bovis prevalence in the Italian cattle population. However, the importance of these species in the respiratory diseases of calves still remains to be determined.

Genotype distribution of Chinese Mycoplasma bovis isolates and their evolutionary relationship to strains from other countries.

This study was undertaken to determine the genotypic distribution of Chinese M. bovis strains and their similarity to isolates from other countries. Two multilocus sequence typing (MLST) schemes (MLST-1 and MLST-2) and pulsed field gel electrophoresis (PFGE) were used to compare 44 Chinese strains and the M. bovis type strain PG45. The results showed a high genetic homogeneity of Chinese isolates; 43 of 44 (97.7%) Chinese isolates were identified as ST-10 and as ST-34 by MLST-1, while for MLST-2 42 of 44 (95.5%) were identified as ST-10 with the two remaining isolates of ST-32 and ST43. PFGE clustered 42 of 44 (95.5%) of the Chinese isolates into PT-I. The overall agreement rate between the three typing methods was 97.8% (95% CI:86.8-99.9%). The type strain PG45 was identified as a unique type by all three methods. When the MLST-2 scheme was further used to analyze 16 isolates of Australian and Israeli origin ST-10 was more dominant among Australian isolates (7/8), compared with those from Israel (3/8). The evolutionary relationship of the 60 isolates typed in this study assessed together with 206 additional isolates retrieved from pubmlst/mbovis database analyzed by geoBURST Minimum spanning tree (MST) confirmed that the Chinese, Israeli and Australian M. bovis isolates typed in this study that were predominantly ST-10, were clustered in CC3 with isolates originating from the USA. Our results suggest that ST-10 is an emerging clone of M. bovis population. We hypothesized that the widespread distribution of this type is a result of global livestock movements. These findings will help further the understanding of the global evolution of M. bovis and development of novel vaccines against M. bovis.

Severe Mycoplasma bovis outbreak in an Austrian dairy herd.

A conventional dairy farm, housing 19 Austrian Simmental cows, experienced a spontaneous outbreak of a Mycoplasma bovis infection, showing severe clinical signs of respiratory tract disease, clinical mastitis, and tremendous drop in milk production. Despite intensive therapy, 5 cows died within 2 weeks or were euthanized. From the remaining cows, bacteriological culture and polymerase chain reaction revealed M. bovis in 10 of 14 milk samples. Mycoplasma bovis was found in 1 of 5 randomly collected nasal swabs. Autopsy of 1 cow revealed infection of the lungs and the udder with M. bovis. The 13 M. bovis isolates from milk samples, nasal swabs, lungs, and udder were genotyped by multilocus variable number of tandem-repeat analysis, and indicated that described infections were caused by a single M. bovis strain. The virulent M. bovis strain resulted in dramatic economic loss to the farmer. To control the disease, culling of all animals, including heifers and calves, was recommended, and strict hygienic measures were implemented before introducing new animals to the farm.

Loss of diversity within Mycoplasma bovis isolates collected in France from bovines with respiratory diseases over the last 35 years.

Mycoplasma (M.) bovis has recently emerged as a major, worldwide etiological agent of bovine respiratory diseases leading to huge economic losses mainly due to high morbidity and mortality as well as poor growth rates. The spread of M. bovis infections between different animals, herds, regions or countries has been often reported to be connected to the movement of animals. However, despite recent considerable efforts, no universal subtyping method is yet available to trace M. bovis isolates circulation at an international scale. Moreover in France, the overall population diversity of M. bovis isolates has not been assessed since the early 1990s. This study was conducted to fill in these gaps. The genotypic diversity between sixty isolates collected in France over the last 35 years was assessed using two molecular subtyping methods that addressed either the long-term epidemiological relationships (Multi Locus Sequence Typing, MLST) or the genetic microvariations (Multiple Locus VNTR Analysis, MLVA) between isolates. Phenotypic diversity was also analyzed by using Matrix-Assisted Laser Desorption Ionization-Time of Flight Mass Spectrometry (MALDI-TOF MS) to compare the main protein patterns of isolates. All proposed subtyping approaches were optimized and led to the same pattern in the French M. bovis population that consisted of two clusters, the first one comprising isolates collected before 2000 and the second, those collected after 2000. Recent strains were further shown to be more homogeneous than older ones, which is consistent with the spread of a single clone throughout the country. Because this spread was concomitant with the emergence of multiresistant M. bovis isolates, several hypotheses are discussed to explain the homogeneity of M. bovis isolates in France, even though the M. bovis species is fully equipped to generate diversity.

Multilocus sequence typing of Mycoplasma bovis reveals host-specific genotypes in cattle versus bison.

Mycoplasma bovis is a primary agent of mastitis, pneumonia and arthritis in cattle and the bacterium most frequently isolated from the polymicrobial syndrome known as bovine respiratory disease complex. Recently, M. bovis has emerged as a significant health problem in bison, causing necrotic pharyngitis, pneumonia, dystocia and abortion. Whether isolates from cattle and bison comprise genetically distinct populations is unknown. This study describes the development of a highly discriminatory multilocus sequencing typing (MLST) method for M. bovis and its use to investigate the population structure of the bacterium. Genome sequences from six M. bovis isolates were used for selection of gene targets. Seven of 44 housekeeping genes initially evaluated were selected as targets on the basis of sequence variability and distribution within the genome. For each gene target sequence, four to seven alleles could be distinguished that collectively define 32 sequence types (STs) from a collection of 94 cattle isolates and 42 bison isolates. A phylogeny based on concatenated target gene sequences of each isolate revealed that bison isolates are genetically distinct from strains that infect cattle, suggesting recent disease outbreaks in bison may be due to the emergence of unique genetic variants. No correlation was found between ST and disease presentation or geographic origin. MLST data reported here were used to populate a newly created and publicly available, curated database to which researchers can contribute. The MLST scheme and database provide novel tools for exploring the population structure of M. bovis and tracking the evolution and spread of strains.

Global multilocus sequence typing analysis of Mycoplasma bovis isolates reveals two main population clusters.

Mycoplasma bovis is a major bovine pathogen associated with bovine respiratory disease complex and is responsible for substantial economic losses worldwide. M. bovis is also associated with other clinical presentations in cattle, including mastitis, otitis, arthritis, and reproductive disorders. To gain a better understanding of the genetic diversity of this pathogen, a multilocus sequence typing (MLST) scheme was developed and applied to the characterization of 137 M. bovis isolates from diverse geographical origins, obtained from healthy or clinically infected cattle. After in silico analysis, a final set of 7 housekeeping genes was selected (dnaA, metS, recA, tufA, atpA, rpoD, and tkt). MLST analysis demonstrated the presence of 35 different sequence types (STs) distributed in two main clonal complexes (CCs), defined at the double-locus variant level, namely, CC1, which included most of the British and German isolates, and CC2, which was a more heterogeneous and geographically distant group of isolates, including European, Asian, and Australian samples. Index of association analysis confirmed the clonal nature of the investigated M. bovis population, based on MLST data. This scheme has demonstrated high discriminatory power, with the analysis showing the presence of genetically distant and divergent clusters of isolates predominantly associated with geographical origins.

Attenuated Mycoplasma bovis strains provide protection against virulent infection in calves.

Mycoplasma bovis is a major etiological agent of pneumonia and arthritis in feedlot beef cattle. To develop a novel live vaccine against M. bovis, two attenuated M. bovis strains, P150 and P180, were tested in calves for protection against challenge with the virulent M. bovis parental strain. Twenty calves were divided into four groups of five calves each that were designated as the P150, P180, positive control (PC), and negative control (NC) groups. Each calf in the P150 and P180 groups was immunized with 10(9)CFU of P150 or P180, respectively, via the nasal cavity, and the PC and NC groups received the mock inoculation. Baseline data were collected for 46 days post-immunization. The clinical signs were scored, and rectal temperatures and daily weight gain were recorded. The blood leukocyte count, the neutrophil ratio, and the serum levels of IgG, IgA, IFN-ß, and TNF-α were quantified using laboratory tests, and the nasal shedding was evaluated using microbiological methods. The P150, P180, and PC calves were challenged with a dose of 10(10)CFU of virulent M. bovis by intratracheal injection on 3 consecutive days. The calves were monitored for 25 days post-challenge to observe changes in the baseline parameters. On day 25 post-challenge the calves were euthanized for necropsy and analysis of tissue samples. The P150 and P180 immunizations caused no clinical abnormality, and did not affect daily weight gain. The post-inoculation neutrophil ratio and serum levels of IgG and IFN-ß significantly increased in the P150, P180, and PC calves, whereas the serum levels of IgA and TNF-α did not. After challenge, the PC group developed the typical clinical signs and pathology associated with M. Bovis infection, whereas immunization with P150 or P180 provided efficacious protection. Based on the scores for gross pathology and lung pathology, the protection rates of the P150 and P180 immunizations were 87.7% and 70.8%, respectively. The P150 attenuated strain is a promising candidate for a live vaccine against M. bovis infection in cattle.

Membrane proteins of Mycoplasma bovis and their role in pathogenesis.

Mycoplasma membrane proteins influence cell shape, cell division, motility and adhesion to host cells, and are thought to be integrally involved in the pathogenesis of mycoplasmoses. Many of the membrane proteins predicted from mycoplasma genome sequences remain hypothetical, as their presence in cellular protein preparations is yet to be established experimentally. Recent genome sequences of several strains of Mycoplasma bovis have provided further insight into the potential role of the membrane proteins of this pathogen in colonisation and infection. This review highlights recent advances in knowledge about the influence of M. bovis membrane proteins on the pathogenesis of infection with this species and identifies future research directions for enhancing our understanding of the role of these proteins.

Emergence, re-emergence, spread and host species crossing of Mycoplasma bovis in the Austrian Alps caused by a single endemic strain.

Mycoplasma (M.) bovis was identified and reported in Austria as agent of infection and disease in cattle only once, namely in 2005 associated with a case of mastitis in a smallholding, but in 2007 it unexpectedly emerged as the cause of a devastating disease outbreak in a dairy herd of 100 individuals and spill over infection to pigs, both kept on the same mountain pasture. In 2008, M. bovis remained endemic at a low level in this region followed by the re-emergence of the agent in 2009 and a dramatic spread of the disease to further Alpine areas and their foothills in 2010 and 2011. From these outbreaks, a total of 94 M. bovis isolates including 7 porcine isolates were selected for genotyping. Two molecular tools, randomly amplified polymorphic DNA (RAPD) analysis and multi-locus variable number of tandem-repeat analysis (MLVA) were chosen to identify strain types involved in these outbreaks and to trace routes of infection and dynamics of dissemination. With both typing methods, the majority of Alpine isolates (96.8%) recovered over time from different areas and hosts was clustered into one group exhibiting a unique and indistinguishable profile which significantly differed from those of geographically unrelated strains including the type strain PG45 and 3 Alpine isolates which suddenly appeared and disappeared in 2009. Stability of the unique profile strongly indicated that a single M. bovis strain initiated the outbreak in 2007, crossed the host species barrier by infecting pigs, re-emerged in 2009 and became widespread in the Austrian Alps in 2010 and 2011. The remarkable dissemination and persistence of a single and unique M. bovis strain may reflect peculiarities of dairy management practices in the Alps based on Alpine transhumance and cooperative use of mountain pastures. As the source of the outbreak strain remains unknown, the findings of this study underscore the importance of continuous surveillance by monitoring further spread and persistence of M. bovis infections for effective control to minimize losses in Alpine dairy farming.

Prevalence and genotype of Mycoplasma bovis in beef cattle after arrival at a feedlot.

OBJECTIVE: To determine the prevalence of Mycoplasma bovis infection in the lungs of cattle at various times after arrival at a feedlot, to measure the relationship between clinical disease status and the concentration and genotype of M bovis within the lungs, and to investigate changes in the genotype of M bovis over time. SAMPLE: Bronchoalveolar lavage fluid (BALF) from 328 healthy or pneumonic beef cattle and 20 M bovis isolates obtained from postmortem samples. PROCEDURES: The concentration of M bovis in BALF was determined via real-time PCR assays, and M bovis isolates from BALF were genotyped via amplified fragment length polymorphism (AFLP) analysis. RESULTS: Prevalence of M bovis in BALF was 1 of 60 (1.7%) at arrival to a feedlot and 26 of 36 (72.2%) and 36 of 42 (85.7%) at ≤ 15 days and 55 days after arrival, respectively. Neither the concentration nor the AFLP type of M bovis in BALF was correlated with clinical disease status. The M bovis AFLP type differed between early and later sampling periods in 14 of 17 cattle. CONCLUSIONS AND CLINICAL RELEVANCE: The findings implied spread of M bovis among calves and suggested that host factors and copathogens may determine disease outcomes in infected calves. Chronic pulmonary infection with M bovis may represent a dynamic situation of bacterial clearance and reinfection with strains of different AFLP type, rather than continuous infection with a single clone. These findings impact our understanding of why cattle with chronic pneumonia and polyarthritis syndrome inadequately respond to antimicrobial treatment.

Phylogeny and molecular typing of Mycoplasma agalactiae and Mycoplasma bovis by multilocus sequencing.

Mycoplasma agalactiae and Mycoplasma bovis are important pathogens producing similar pathologies in small ruminants and cattle, respectively. They share many phenotypic and genotypic traits and comparison of their 16S rDNA sequences lacks sufficient resolution for phylogenetic analysis. The aim of this study was to develop a multilocus sequence typing (MLST) scheme to analyse the phylogenetic relationships between M. agalactiae and M. bovis and to assess its use for unequivocal strain characterisation and molecular typing. An MLST based on fusA, gyrB, lepA and rpoB was applied to a sample of strains from both species, some of which could not be classified by serology or PCR. A robust phylogenetic tree was inferred, where the two species were clearly resolved. The use of this tool for the molecular typing of M. agalactiae strains was further evaluated on 19 presumably unrelated isolates, resulting in the discrimination of 14 sequence types (ST). The discriminatory power was increased (17 ST) by including an alternative target located in a more variable region. The diversity of M. agalactiae in Turkey (9 strains) and Israel (15 strains) was also assessed. Five closely related ST were evidenced in Turkey and 6 in Israel, with one ST common to both countries. Each country showed a predominant type that persisted over years. The MLST scheme developed here constitutes a universal tool for unequivocal strain characterisation and global, long-term screening of dissemination of M. agalactiae and M. bovis, whereas addition of more variable, non-housekeeping gene targets allows precise epidemiological investigations.

Herd-specific strains of Mycoplasma bovis in outbreaks of mycoplasmal mastitis and pneumonia.

Mycoplasma bovis causes severe economic losses in livestock production, particularly on the Northern American continent and more recently also in continental Europe. The aim of the current study was to evaluate whether the recently emerging outbreaks were due to a particular clone or strain of M. bovis or whether these outbreaks are due to multiple infectious strains of M. bovis. The study is based on the analysis M. bovis isolated from cattle of herds with outbreaks of mycoplasmal mastitis or pneumonia from geographically non related parts of Switzerland. M. bovis isolates were typed by insertion sequence (IS) element analysis based upon ISMbov1 and ISMbov2 southern-blot hybridization. We observed a strong divergence of M. bovis strains among affected herds which mostly were herd specific. This argues against the assumption that a recent infiltration of a particular clone of M. bovis is the cause of the perilous emerging outbreaks. The study suggests that transmission occurs from animal to animal most probably via milk.

Genotyping of Mycoplasma bovis isolates using multiple-locus variable-number tandem-repeat analysis.

Mycoplasma bovis has been considered an important cause of mastitis, pneumonia, and arthritis in bovines with a highly detrimental economic impact in the livestock industry. Previous epidemiological studies, using different typing techniques showed that the isolates were usually heterogeneous and results were difficult to compare between different laboratories. Reliable and comparable molecular typing techniques using geographically and temporal distinct isolates have never been used. The objective of this study was to use multiple-locus variable-number tandem-repeat analysis (MLVA) for the differentiation of M. bovis isolates. This typing scheme was developed using the sequenced genome of the M. bovis PG45 type strain. Nine tandem-repeat sequences were selected and the genetic diversity of 37 isolates of wide geographic and temporal origins was analyzed. The results were compared to those obtained with random amplified polymorphic DNA (RAPD) analysis and pulsed-field gel electrophoresis (PFGE) for the same isolates. Cluster concordance between techniques was evaluated using Adjusted Rand and Wallace coefficients, and different cutoff levels of similarity were tested. Acceptable values of ≥0.5 for all techniques for the Wallace coefficient were only observed at the most relaxed cutoff level, i.e., 52% for MLVA, 29% for PFGE and 18% for RAPD. The Simpson's index of diversity was 0.91 for MLVA, 0.99 for RAPD analysis and 0.99 for PFGE. This MLVA assay is compatible with simple PCR and agarose gel-based electrophoresis steps as well as with high-throughput automated methods. The molecular typing scheme presented in this study provides a fast, reliable, and cost-effective typing method for surveillance of M. bovis epidemiology.

The use of pulsed-field gel electrophoresis to investigate the epidemiology of Mycoplasma bovis in French calf feedlots.

Mycoplasma bovis is a major cause of respiratory outbreaks in cattle feedlots. In this study pulsed-field gel electrophoresis (PFGE) was used to trace field strains and provide information on M. bovis patterns of spread in calf feedlots. The suitability of KpnI, MluI and SmaI restriction enzymes was assessed on different sets of strains. The discriminative power of the first two enzymes was first assessed using 28 epidemiologically unrelated strains; stability was 100% on multiple isolates from in vivo experimental infection. Thirty-nine field isolates from six feedlots were then evaluated. In contrast to the unique fingerprints displayed by the unrelated strains, the isolates from the feedlots showed identical patterns at the time of the outbreak of respiratory disease and 4 weeks later. The PFGE typing results suggest that M. bovis strains follow a clonal epidemic spread pattern at the herd level and that the same strain persists in calves of the herd after the clinical signs have disappeared.