Outer membrane proteins of bovine Pasteurella multocida serogroup A isolates

The outer membrane proteins (OMPs) of P. multocida serotypes A3 (7 isolates), A4 (2 isolates), A3,4 and A2 (one isolate each) obtained from pneumonic cattle (10 isolates) and from one pig isolate were investigated to identify potential immunogens. SDS-PAGE of P. multocida OM isolated by SDG centrifugation of spheroplasts revealed eight major OMPs. Outer membranes isolated by sarcosyl extraction or SDG had similar protein composition on Coomassie blue-stained SDS-PA gel and on immunoblots. Two major OMPs (M_rs of 35 and 46 kDa at 100°C) demonstrated heat modifiability with apparent M_rs of 30 and 34 kDa at 37°C, respectively. The N-terminal aa sequences of these heat modifiable proteins revealed homology with E. coli OmpA and Hib P1 proteins, respectively. Protease treatment of whole cells followed by western immunoblots using bovine convalescent sera identified several immunogenic, surface-exposed and conserved OMPs among the eleven P. multocida isolates examined. The whole organism SDS-PAGE profiles of the eleven P. multocida isolates differed such that six patterns were seen. These patterns could potentially be used as a typing system for P. multocida bovine isolates based on the molecular weights of whole cell proteins. The above observations have potentially important implications relative to the immunity to infection.     

Characterization of Pasteurella multocida strains isolated from human infections

Isolates of Pasteurella multocida recovered from infected humans (n = 15) were characterized by traditional and molecular microbiological methods and were compared with cat-derived strains (n = 5). The most prevalent subspecies among strains from human infections was P. multocida subsp. septica (80%), and nearly all isolates showed a similar combination of virulence-associated genes. MLST analysis classified the 20 P. multocida strains into 16 different sequence types, and we assigned 11 new sequence types (ST), however, only one of those (ST 334) was shared by two human and one cat isolates. P. multocida subsp. septica strains formed a distinct phylogenetic group within the species. The strains showed resistance to erythromycin, clindamycin and sulfamethoxazole, and with two exceptions, resistance to tilmicosin was also detected. Each strain was susceptible to ampicillin, streptomycin, gentamycin, tetracycline, doxycycline, cefazolin, cefpodoxime, chloramphenicol, florfenicol and enrofloxacin. Common characteristics (virulence profile and antibiotic sensitivity pattern) shared by strains isolated from humans and cats support the view that domestic cats may serve as a potential reservoir for P. multocida.     

Profiling of virulence associated genes of Pasteurella multocida isolated from cattle

Pasteurella multocida is a causative agent of many major diseases of which haemorrhagic septiciemia (HS) in cattle & a buffalo is responsible for significant losses to livestock sector in India and south Asia. The disease outcome is affected by various host- and pathogen-specific determinants. Several bacterial species-specific putative virulence factors including the capsular and virulence associated genes have been proposed to play a key role in this interaction. A total of 23 isolates of P. multocida were obtained from 335 cases of various clinically healthy and diseased cattle. These isolates were examined for capsule synthesis genes (capA, B, D, E and F) and eleven virulence associated genes (tbpA, pfhA, toxA, hgbB, hgbA, nanH, nanB, sodA, sodC, oma87 and ptfA) by PCR. A total of 19 P. multocida isolates belonging to capsular type B and 4 of capsular type A were isolated. All isolates of capsular type B harboured the virulence associated genes: tbpA, pfhA, hgbA, sodC and nanH, coding for transferrin binding protein, filamentous hemagglutinin, haemoglobin binding protein, superoxide dismutase and neuraminidases, respectively; while isolates belonging to capsular type A also carried tbpA, pfhA, hgbA and nanH genes. Only 50 % of capsular type A isolates contained sodC gene while 100 % of capsular type B isolates had sodC gene. The gene nanB and toxA were absent in all the 23 isolates. In capsular type A isolates, either sodA or sodC gene was present & these genes did not occur concurrently. The presence of virulence associated gene ptfA revealed a positive association with the disease outcome in cattle and could therefore be an important epidemiological marker gene for characterizing P. multocida isolates.     

Homogeneity of VacJ outer membrane lipoproteins among Pasteurella multocida strains and heterogeneity among members of Pasteurellaceae

Outer membrane lipoproteins are widely distributed in Gram-negative bacteria which are involved in diverse mechanisms of physiology/pathogenesis. Various pathogenic bacterial strains belonging to the family-Pasteurellaceae have several surface exposed virulence factors including VacJ/VacJ-like lipoproteins. In the present study, vacJ gene encoding for VacJ outer membrane lipoprotein of different Pasteurella multocida strains (n = 10) were amplified, sequenced and compared with available VacJ/VacJ-like sequences (n = 45) of Pasteurellaceae members. Comparative multiple sequence analysis at amino acid level indicated absolute homogeneity of VacJ lipoprotein among different P. multocida strains. However, heterogeneity (18.0–89.9%) of VacJ lipoprotein was noticed among members of Pasteurellaceae. A predicted lipobox motif (L-3-[A/S/T/V]-2-[G/A]-1-C) was found to be conserved between 12-32aa residues at N-terminus among all VacJ sequences. Bioinformatic analysis indicated that VacJ is a chromosomal gene product exposed on the bacterial surface, possibly essential for either physiological or pathogenicity process of Pasteurellae and distributed widely among P. multocida serogroups. The study indicated potential possibilities of using absolutely conserved VacJ lipoprotein either as ‘signature gene/protein’ in developing diagnostic assay or as a recombinant subunit vaccine for P. multocida infections in livestock.     

Rapid virulence typing of Pasteurella multocida by multiplex PCR

The gram-negative bacterium Pasteurella multocida constitutes a heterogeneous species associated with wide range of disease in many animals. Isolates are classified into five groups based on capsular antigen (capA, B, D, E and F). Recently, a new valuable PCR-based method was introduced to determine the epidemiological correlation between P. multocida infection and existence of virulence genes including tbpA, pfhA, toxA and hgbB. However, this method is tedious and laborious. Thus, in the current study, we designed a reliable multiplex PCR method for rapid detection of virulence genes in P. multocida. Eighty seven strains of P. multocida isolated from various clinically healthy and infected hosts were examined by uniplex PCR method for each virulence associated genes. Based on our improved and simplified multiplex PCR method, rapid detection of four virulence genes was accomplished. It is proposed that its implementation may benefit the epidemiological investigations.     

Carboxyl terminus heterogeneity of type IV fimbrial subunit protein of Pasteurella multocida isolates

Pasteurella multocida, a Gram-negative bacterial pathogen, known to affect a wide range of domestic as well as wild animal and avian species throughout the world by causing either systemic or localized infections termed as ‘pasteurellosis’. P. multocida isolates are known to possess type IV fimbriae (pili) as one of the major virulence factors based on their role in adhesion to host surfaces and subsequent pathogenesis. In the present study, ptfA gene of Indian P. multocida isolates (n?=?8) originated from different animal (buffalo, sheep, goat, pig) and avian host species (chicken, turkey, duck, quail) were amplified, cloned, sequenced and compared with available ptfA/fimbrial protein sequences in GenBank/publications (n?=?22) to understand its variability with respect to geography/host/serogroup/disease specific patterns. Multiple sequence alignment revealed highly conserved N-terminus α-1 helix region and heterogeneous C-terminus (68–137 aa) comprised of β-strand regions (β1, β2, β3, β4) with conserved two pairs of cysteine residues. Interestingly, an existence of absolute homogeneity among the P. multocida isolates that caused haemorrhagic septicaemia in bovines and septicaemic pasteurellosis in sheep and goats was noticed. Pig isolates had 99.3 % homogeneity. On contrary, more diversity (35.8 %) was observed among isolates that caused fowl cholera in avians irrespective of identical capsular/somatic serogroup and similar host species. Phylogenetic analysis based on nucleotide sequences of ptfA gene revealed formation of mixed clusters with isolates representing different disease conditions as well as serogroups irrespective of country of origin which indicated the possible role of cross-species transmission among different animal/avian species. The study indicated highly conserved and host specific fimbriae among animal species than relatively divergent fimbriae among avian species.     

Invasive Pasteurella multocida Infections – Report of Five Cases at a Minnesota Hospital, 2014

During October 2014, the Minnesota Department of Health was notified of five Hospital A patients with Pasteurella multocida bacteraemia; three had died. Human soft tissue infection with P. multocida typically results from cat or dog bites or scratches. Invasive infection, defined as a P. multocida isolate from a usually sterile site, is rare. We evaluated P. multocida isolations at Hospital A, compared with other Minnesota hospitals to understand invasive infection trends. A case was defined as clinically confirmed P. multocida in a Minnesota resident during 2012–2014. All hospital laboratories were queried; Fisher's exact test was used for comparison. Medical charts were reviewed for 2014 Hospital A patients with P. multocida infections. The Minnesota clinical laboratories survey response rate was 79% (63/80). At Hospital A, proportion of P. multocida isolates from usually sterile sites increased from 0% (0/2) during 2012 to 11% (1/9) during 2013, and to 86% (5/6) during 2014. The proportion of patients with P. multocida isolated from sterile sites was 35% (6/17) at Hospital A compared with 10% (58/583) statewide during 2012–2014 combined (P < 0.05). Among 2014 Hospital A patients with invasive P. multocida infection, all five were men; median age was 70 (range: 44–78) years. Four were temporally clustered within a 33‐day period; three of those had bacteraemia on admission, making hospital acquisition possible in only one. Among five bacteraemia patients, four had cirrhosis and/or skin ulcerations, and three died. The proportion of invasive P. multocida cases was substantially higher at Hospital A during 2014. No epidemiologic links between patients were found. Three had known pet exposure. Collaborative educational efforts of chronically ill pet owners by physicians and veterinarians can acknowledge the health benefits of pet ownership, while minimizing risk for serious invasive zoonotic infections, including those caused by P. multocida.     

Molecular heterogeneity of plpE gene in Indian isolates of Pasteurella multocida and expression of recombinant PlpE in vaccine strain of P. multocida serotype B: 2

Outer membrane proteins of Pasteurella (P.) multocida have been known to be protective immunogens. Pasteurella lipoprotein E (PlpE) has been reported to be an important cross reactive outer membrane protein in P. multocida. The gene encoding the PlpE of P. multocida serotypes A: 3, B: 2 and D: 1 was amplified from the genomic DNA. The amplified products were cloned and the nucleotide sequence was determined. Sequence analysis of the recombinant clones revealed a single open reading frame of 1,011 bp, 1,008 bp and 1,017 bp encoding a protein with a calculated molecular mass of 37.829 kDa, 37.389 kDa and 37.965 kDa for serotypes A: 3, B: 2 and D: 1 respectively. The comparison of the plpE sequence in different capsular types revealed a high degree (>90%) of homology. Furthermore, the plpE gene of Haemorhhagic septicaemia causing serotype (B: 2) was expressed in E. coli and recombinant PlpE was strongly immunostained by antiserum against whole cell antigen, indicating that the protein is expressed in vivo.     

Evaluation of serovar-independent ELISA antigens of Actinobacillus pleuropneumoniae in pigs, following experimental challenge with A. pleuropneumoniae, Mycoplasma hyopneumoniae and Pasteurella multocida

Objective To compare the sensitivity and specificity of six serological enzyme‐linked immunosorbent assays (ELISAs) based on serovar‐independent antigens of Actinobacillus pleuropneumoniae (App) and investigate cross‐reactivity in disease‐free pigs challenged with Mycoplasma hyopneumoniae and Pasteurella multocida. Design Five experimental pig trials using direct challenge with App serovars 1, 7 or 15 or direct challenge with M. hyopneumoniae and/or various dose rates of P. multocida. Procedure A 39‐kDa outer membrane protein antigen and five recombinant antigens from the apxIVA gene of App were evaluated. The latter were derived from the ApxIVA N‐terminus (ApxIVA‐N, ApxIVA‐NP, ApxIVA‐NPS) or C‐terminus (ApxIVA‐C, ApxIVA‐CP). Pigs were sampled after challenge and clinical and necropsy findings evaluated. Results The 39‐kDa ELISA had high sensitivity but lacked specificity, with significantly increased cross‐reactivity following P. multocida challenge. ELISAs based on ApxIVA N‐terminus antigens were significantly more sensitive than C‐terminus antigens for the detection of App‐induced disease. Although ApxIVA‐N and ApxIVA‐NP ELISAs had increased reactivity following P. multocida challenge, they retained high specificity for App‐induced disease (90–93%). Affinity purified ApxIVA‐NP antigen had marginally better specificity than ApxIVA‐N, without reduced sensitivity. Mycoplasma hyopneumoniae did not affect serological cross‐reactivity. In disease‐free pigs, the specificity of the ApxIVA‐NPS ELISA may be adversely affected by nasal carriage of apparently low‐virulence App strains. Conclusions ApxIVA‐N‐based ELISAs can be used for evaluating App status in commercial herds, but some appear limited by high carriage rates of low‐virulence App. The 39‐kDa antigen is only of merit in exclusion of App disease by negative serology.     

Comparative Analysis of the Outer Membrane Protein Profiles of Isolates of the Pasteurella multocida (B:2) Associated with Haemorrhagic Septicaemia

Outer membrane proteins (OMP) of P. multocida (serotype B:2) field isolates (n = 6) and a vaccine strain (P-52) were extracted by a sarkosyl method and characterized using SDS-PAGE and immunoblotting. About 20 polypeptide bands were observed in the profile of the vaccine strain with MW ranging from 16 to 90 kDa and, based on band thickness and intensity of staining, three polypeptides of MW 31, 33 and 37 kDa were considered to be the major OMPs. The profiles of the field isolates showed minor differences when compared with that of the vaccine strain. The OMP of 33 kDa was only expressed by the vaccine strain. Four field isolates expressed an OMP of 39 kDa, which did not appear in the profiles of the remaining two field isolates and the P-52 strain. Similarly, an OMP of 25 kDa was exclusively seen in the profile of a single isolate. By immunoblotting studies, using anti-P. multocida (P-52) whole-cell hyperimmune serum raised in rabbits as well as buffalo immune sera, it became evident that the polypeptide of 37 kDa was the most antigenic OMP in the profiles of all the isolates, including the P-52 strain. Other polypeptides were either weakly antigenic or visible in the profile of only a few of the isolates. The study thus identified the major OMP of P. multocida (B:2) and suggested that this highly antigenic 37 kDa OMP has potential for further protective and immunodiagnostic studies.     

Single nucleotide polymorphisms in the bovine Histophilus somni genome; a comparison of new and old isolates

Histophilus somni, a causative agent of the bovine respiratory disease complex, can also cause a variety of systemic disorders, including bronchopneumonia, myocarditis, pericarditis, arthritis, pleuritis, and infectious thrombotic meningoencephalitis. The purpose of this study was to determine if currently circulating strains differ from those of the 1980s by identifying genomic changes. Single nucleotide polymorphisms (SNPs) and insertion and deletion (INDEL) sites were examined by whole-genome sequencing in 12 samples, 6 old and 6 new. The 31 028 SNP/INDELs recorded were compared against the reference genome sequence of the pathogenic H. somni strain 2336. The distribution of about 75% of these SNPs within a specified gene differed between old and new isolates and did not follow any particular pattern. The other 25% clustered into 2 groups containing the same SNPs in various genes: group I included 5 old isolates and 1 new isolate; group II included 5 new isolates and 1 old isolate. For putative virulence genes there were more SNPs in group I compared with strain 2336, itself an older isolate, than in group II. Although only 25% of all the SNPs formed 2 clusters, the results suggest some genetic difference in various genes between old and new strains.     

PCR analysis of Pasteurella multocida isolates from an outbreak of pasteurellosis in Indian pigs

An outbreak of pasteurellosis with high mortality was recorded in indigenous pigs in India. The presence of Pasturella multocida in samples collected from dead pigs was detected by smear examination and isolation, and later by P. multocida specific polymerase chain reaction (PM-PCR). P. multocida was detected in all the samples collected from dead pigs, with nine strains ultimately isolated. All the isolates were positive by PM-PCR. Six isolates showed CAPA and three were of CAPD capsular types. All the isolates were negative for toxigenic gene (toxA). The isolates were sensitive to oxytetracycline, doxycycline, gentamycin, erythromycin, ampicillin, amoxycillin, chloramphenicol and enrofloxacin and resistant to sulphadiazine and cloxacillin. The PCR assays used in this study have been shown to be useful diagnostic tools for P. multocida detection and characterization.     

Antimicrobial resistance in bovine respiratory disease: Auction market- and ranch-raised calves

This study compared changes in prevalence and antimicrobial susceptibility of Mannheimia haemolytica, Pasteurella multocida, and Histophilus somni in feedlot calves derived from the auction market (AUCT; n = 299) and from a single-ranch source (RANCH; n = 300). In the AUCT calves, the prevalence of Mannheimia haemolytica decreased, whereas Histophilus somni increased over the feeding period. The AUCT calves showed an increase in isolates not susceptible to tulathromycin for all bovine respiratory disease (BRD) pathogens, an increase in Pasteurella multocida and Histophilus somni isolates not susceptible to oxytetracycline, and an increase in Pasteurella multocida isolates not susceptible to florfenicol. In the RANCH calves, the prevalence of all 3 BRD pathogens was high at feedlot entry and decreased significantly during the study period. In RANCH calves, there was a significant increase in Pasteurella multocida isolates not susceptible to oxytetracycline, tulathromycin, and florfenicol. Surprisingly, there was a significant decrease in Mannheimia haemolytica isolates that were not susceptible to oxytetracycline, tilmicosin, and tulathromycin.     

Isolation and characterization of atypical Riemerella columbina strains from pigeons and their differentiation from Riemerella anatipestifer

Riemerella columbina (RC) and Riemerella anatipestifer (RA) belong to the genus Riemerella within the family Flavobacteriaceae. While RA is a well-described pathogen of waterfowl and other avian species, only little is known about RC. Previous work reporting the isolation of RC from internal organs of clinically diseased pigeons suggested a potential pathogenic role in this avian species. In this study we examined pharyngeal swabs collected from pigeons and found RC to be widely distributed also among healthy birds. Further characterization of 81 RC-isolates revealed several atypical strains, which differed from all previously described RC-isolates by the lack of aesculin-hydrolysis activity (17 isolates) or by expression of yellow or orange pigmentation (6 isolates). Sequence analysis of the 16S rRNA and outer membrane protein A (ompA) gene supported the affiliation of these strains to the species RC. Aesculin-hydrolysis negative isolates were found to be biochemically indistinguishable from RA. We demonstrated that bacterial fingerprinting using matrix assisted laser desorption/ionisation–time of flight mass spectrometry (MALDI–TOF MS) analysis is useful for the identification and differentiation of RC and RA.     

Studies on Pasteurella multocida. IV. Immunofluorescence detection of the organisms in spleen and lungs of turkeys vaccinated with live oral vaccines

Oral vaccination of turkeys with live avirulent strains of P. multocida (M-2283 and CU strain) resulted in the local as well as systemic dissemination of the organisms. The persistence of P. multocida in the lungs and splenic tissues of these vaccinated turkeys was demonstrated by the indirect immunofluorescence technique. All of the tissues examined up to the first week post vaccination were P. multocida positive. Cryostat sections of lungs from birds vaccinated with the avirulent strain M-2283 were negative at 2 weeks post vaccination, while the spleen continued to be positive up to the third week post vaccination. In contrast to the group of turkeys vaccinated with strain M-2283, lung and spleen cryostat sections from turkeys vaccinated with strain CU remained positive up to the fourth week post vaccination. Tissues examined thereafter were negative for the presence of P. multocida from both groups.The major immune mechanism in the defense against fowl cholera is still unknown. If local immunity is primarily responsible, the CU strain may be the better vaccine strain as it persists in the lungs for 2 weeks longer than the M-2283 strain. However, if systemic immunity is chiefly responsible for immunity, both strains could protect equally, since they persist in the spleen for approximately the same period of time.     

Multiple-class antimicrobial resistance surveillance in swine Escherichia coli F4, Pasteurella multocida and Streptococcus suis isolates from Ontario and the impact of the 2004–2006 Porcine Circovirus type-2 Associated Disease outbreak

The objective of this work was to describe trends in multiple-class antimicrobial resistance present in clinical isolates of Escherichia coli F4, Pasteurella multocida and Streptococcus suis from Ontario swine 1998–2010. Temporal changes in multiple-class resistance varied by the pathogens examined; significant yearly changes were apparent for the E. coli and P. multocida data. Although not present in the E. coli data, significant increases in multiple-class resistance within P. multocida isolates occurred from 2003 to 2005, coinciding with the expected increase in antimicrobials used to treat clinical signs of Porcine Circovirus Associated Disease (PCVAD) before it was confirmed. Prospective temporal scan statistics for multiple-class resistance suggest that significant clusters of increased resistance may have been found in the spring of 2004; months before the identification of the PCVAD outbreak in the fall of 2004.     

Pheno- and genotypic characterization of Pasteurella multocida isolated from cats,dogs and rabbits from Brazil

Pasteurella multocida is the causative agent of many diseases of economic importance in veterinary medicine and is characterized by high zoonotic potential. Pet animals can be infected and play a major role as carriers. This study aimed to characterize the genetic diversity of P. multocida isolated from dogs, cats and rabbits, and to evaluate their antimicrobial susceptibility profiles. A total of 620 animals were studied; 51 were positive for P. multocida and 92 strains were isolated. 60.9% of the strains belonged to the capsular type A, while the remaining were classified as non-typeable. The hgbA, ptfA, sodC, tadD and hsf2 genes were more frequent among the rabbit strains. Sulfonamides and cotrimoxazole presented the highest resistance rate, followed by erythromycin. PFGE clustered strains according to host species. Our results indicate that P. multocida from companion animals carry several virulence factors and are resistant to antimicrobials commonly used in human and veterinary medicine.     

Characterisation of Escherichia fergusonii isolates from farm animals using an Escherichia coli virulence gene array and tissue culture adherence assays

Escherichia fergusonii has been associated with a wide variety of intestinal and extra-intestinal infections in both humans and animals but, despite strong circumstantial evidence, the degree to which the organism is responsible for the pathologies identified remains uncertain. Thirty isolates of E. fergusonii collected between 2003 and 2004 were screened using an Escherichia coli virulence gene array to test for the presence of homologous virulence genes in E. fergusonii. The iss (increased serum survival) gene was present in 13/30 (43%) of the test strains and the prfB (P-related fimbriae regulatory) and ireA (siderophore receptor IreA) genes were also detected jointly in 3/30 (10%) strains. No known virulence genes were detected in 14/30 (47%) of strains. Following confirmatory PCR and sequence analysis, the E. fergusoniiprfB, iss and ireA genes shared a high degree of sequence similarity to their counterparts in E. coli, and a particular resemblance was noted with the E. coli strain APEC O1 pathogenicity island. In tissue culture adherence assays, nine E. fergusonii isolates associated with HEp-2 cells with a ‘localised adherence’ or ‘diffuse adherence’ phenotype, and they proved to be moderately invasive. The E. fergusonii isolates in this study possess both some phenotypic and genotypic features linked to known pathotypes of E. coli, and support existing evidence that strains of E. fergusonii may act as an opportunistic pathogens, although their specific virulence factors may need to be explored.     

Identification of <Emphasis Type="BoldItalic">Pasteurella multocida</Emphasis> capsular types isolated from rabbits and other domestic animals in Mexico with respiratory diseases

Pasteurella multocida is the causative agent of pasteurellosis, a major disease in most domestic animals and livestock. In this study, a total of 34 isolates of P. multocida from rabbits and other domestic animals from Mexico with respiratory diseases underwent polymerase chain reaction-based capsular typing. One sheep isolate was found to belong to capsular serogroup D, whereas the rest of the rabbit, sheep, cattle, pig, goat, and duck isolates belonged to capsular serogroup A of P. multocida. This is the first report of capsular type A in P. multocida isolates from rabbits and duck origin in Mexico.