Multivariate analysis of quantitative chemical and enzymic characterization data in classification of Actinobacillus, Haemophilus and Pasteurella spp

Chemotaxonomic data for strains of Actinobacillus, Haemophilus and Pasteurella spp. were analysed using three multivariate statistical strategies: principal components, partial least squares discriminant, and soft independent modelling of class analogy. The species comprised Actinobacillus actinomycetemcomitans. Haemophilus aphrophilus, H. paraphrophilus, H. influenzae, Pasteurella multocida, P. haemolytica and P. ureae. Strains were characterized by cell sugar and fatty acid composition, lysis kinetics during EDTA and EDTA plus lysozyme treatment, and methylene blue reduction. In total 23 quantitative variables were compiled from chemotaxonomic analyses of 25 strains. A. actinomycetemcomitans and H. aphrophilus formed distinct classes which differed from those of H. paraphrophilus, H. influenzae and Pasteurella spp. All characterization variables, except those describing fatty acid content, contributed significantly to inter-species discrimination.     

Isolation of members of the Haemophilus-Pasteurella-Actinobacillus group from feral rodents

46 feral rodents, including a common vole (Microtus arvalis), house mice (Mus musculus), muskrats (ondatra zibetica), house rats (Rattus rattus) and brown rats (R. norvegicus) were examined for bacteria of the Haemophilus-Pasteurella-Actinobacillus group. Haemophilus spp. (only M. musculus examined) were not obtained. All animal species were found contaminated by P. pneumotropica and/or Actinobacillus spp. Almost all M. musculus (96%) and most Rattus spp. (76%) were contaminated by P. pneumotropica and/or Actinobacillus spp. These bacteria were obtained most frequently from the upper respiratory tract, to a lesser extent from the lung and rarely from caecal contents. It is concluded that feral rodents might constitute an important source of contamination of laboratory rodents by members of the HPA-group.     

Prevalence of a Novel Capsule-Associated Lipoprotein Among Pasteurellaceae Pathogenic in Animals

Capsular serotype A strains of Pasteurella multocida of avian origin express a 40-kDa lipoprotein (Plp-40) thought to attach the extracellular polysaccharide to the cell surface. The objective of the present study was to assess the prevalence of Plp-40 in P. multocida strains of disparate serotypes and host origins, as well as other pathogenic members of the family Pasteurellaceae. Exponential-phase reference and clinical isolates were radiolabeled with [³H]-palmitate, lysed to obtain whole-cell protein fractions, and analyzed using SDS-PAGE and fluorography to assess lipoprotein content. The ability to produce Plp-40 was found to be conserved among certain P. multocida reference and clinical strains of different host origins including avian, human, porcine, bovine, feline, canine, ovine, and cervine, but not rabbit. Production of a 40-kDa lipoprotein was exhibited by all clinical isolates of Pasteurella aerogenes, Pasteurella pneumotropica, Actinobacillus suis, Actinobacillus suis-like organism, and Actinobacillus pleuropneumoniae examined, but not Pasteurella (Mannheimia) haemolytica, Actinobacillus lignieresii, or Haemophilus spp. These data suggest that, while not all Pasteurellaceae are able to produce a 40-kDa lipoprotein under the present experimental conditions, expression is somewhat conserved among diverse isolates of disparate host origins. Received: 28 September 2001 / Accepted: 15 October 2001     

A numerical taxonomic study of Actinobacillus, Pasteurella and Yersinia

A numerical taxonomic study of strains of Actinobacillus, Pasteurella and Yersinia, with some allied bacteria, showed 23 reasonably distinct groups. These fell into three major areas. Area A contained species of Actinobacillus and Pasteurella: A. suis, A. equuli, A. lignieresii, P. haemolytica biovar A, P. haemolytica biovar T, P. multocida, A. actinomycetemcomitans, 'P. bettii', 'A. seminis', P. ureae and P. aerogenes. Also included in A was a composite group of Pasteurella pneumotropica and P. gallinarum, together with unnamed groups referred to as 'BLG', 'Mair', 'Ross' and 'aer-2'. Area B contained species of Yersinia: Y. enterocolitica, Y. pseudotuberculosis, Y. pestis and a group 'ent-b' similar to Y. enterocolitica. Area C contained non-fermenting strains: Y. philomiragia, Moraxella anatipestifer and a miscellaneous group 'past-b'. There were also a small number of unnamed single strains.     

Evaluation of antigen panels for ELISA monitoring of mouse colonies for antibodies to Pasteurellaceae

Pasteurellaceae infection in mice may be monitored by the detection of serum antibody using enzyme-linked immunosorbent assay (ELISA). We re-evaluated our standard antigen panel comprising Pasteurella pneumotropica and a V-factor requiring Haemophilus species (strain H21) by studying their serological relationship with Actinobacillus muris and 'Haemophilus influenzae-murium'. Serologically, A. muris and 'H. influenzae-murium' were found to be unrelated and to differ from P. pneumotropica and Haemophilus strain H21. These four antigens were used for monitoring breeding and experimental mouse colonies for a period of four years. The addition of 'H. influenzae-murium' antigen to the standard panel of antigens significantly increased the proportion of sera and serum panels showing anti-Pasteurellaceae antibody activity, but the addition of A. muris antigen did not.     

Assessment of rpoB and 16S rRNA genes as targets for PCR-based identification of Pasteurella pneumotropica

Diagnosis of Pasteurella pneumotropica in laboratory animals relies on isolation of the organism, biochemical characterization, and, more recently, DNA-based diagnostic methods. 16S rRNA and rpoB gene sequences were examined for development of a real-time PCR assay. Partial sequencing of rpoB (456 bp) and 16S rRNA (1368 bp) of Pasteurella pneumotropica isolates identified by microbiologic and biochemical assays indicated that either gene sequence can be used to distinguish P. pneumotropica from other members of the Pasteurellaceae family. However, alignment of rpoB sequences from the Pasteurella pneumotropica Heyl (15 sequences) and Jawetz (16 sequences) biotypes with other Pasteurellaceae sequences from GenBank indicated that although rpoB DNA sequencing could be used for diagnosis, development of diagnostic primers and probes would be difficult, because the sequence variability between Heyl and Jawetz biotypes is not clustered in any particular region of the rpoB sequence. In contrast, alignment of 16S rRNA sequences revealed a region with unique and stable nucleotide motifs sufficient to permit development of a specific fluorogenic real-time PCR assay to confirm P. pneumotropica isolated by culture and to differentiate Heyl and Jawetz biotypes.     

Identification procedure for Pasteurella pneumotropica in microbiologic monitoring of laboratory animals.

Discrepancies have been recognized in the identification of Pasteurella pneumotropica between testing laboratories. To determine the causes of the differences and to propose a reliable identification procedure for P. pneumotropica, a working group was organized and 69 isolates identified or suspected as P. pneumotropica were collected from 8 laboratories in Japan. These isolates were examined by colony morphology, Gram-staining, the slide agglutination test using two antisera (ATCC35149 and MaR), two commercially available biochemical test kits (ID test, API20NE) and two primer sets of PCR tests (Wang PCR, CIEA PCR). The 69 isolates and two reference strains were divided into 10 groups by test results. No single procedure for P. pneumotropica identification was found. Among tested isolates, large differences were not observed by colony morphology and Gram-straining except for colony colors that depended on their biotypes. Sixty-eight out of 69 isolates were positive by the slide agglutination test using two antisera except for one isolate that tested with one antiserum. The ID test identified 61 out of 69 isolates as P. pneumotropica and there was no large difference from the results of CIEA PCR. From these results, we recommend the combination of colony observation, Gram-straining, the slide agglutination tests with two antisera and biochemical test using the ID test for practical and reliable identification of this organism.     

An enzyme-linked immunosorbent assay (ELISA) for the detection of antibodies to Pasteurella pneumotropica in murine colonies

An ELISA for the detection of class specific IgG antibodies to Pasteurella pneumotropica was developed for the serological diagnosis of infections in mouse colonies. Heat inactivated whole cell preparations of an isolate of P. pneumotropica biotype Heyl (strain P 166) served as antigen for the ELISA procedure and for immune serum production in germ-free Han:NMRI mice. Cross reactions with the autochthonous flora of Han:NMRI SPF-mice were not observed, but were evident when a P. pneumotropica antiserum was tested against other antigens of the Pasteurella-Actinobacillus group. According to the reclassification of this bacterial group proposed by Mutters et al. (1), strains of the following species were tested: P. anatis, P. canis, P. dagmatis, P. langaa, Pl multocida sub. multocida, P. pneumotropica biotype Jawetz, P. stomatis, Actinobacillus equuli and A. lignieresii. Clear cross reactions could be shown with P. pneumotropica biotype Jawetz and A. equuli and to a lesser extent with P. anatis. Antibody formation profiles after nasal infection of Han:NMRI mice exhibited a primary rise of IgG-type antibody titer between 17 to 21 days post infection. Investigations of different mouse colonies free and infected with P. pneumotropica revealed good correlations between serological and bacteriological findings.     

Molecular typing of Pasteurella pneumotropica isolated from rodents by amplified 16S ribosomal DNA restriction analysis and pulsed-field gel electrophoresis

A total of 52 isolates of Pasteurella pneumotropica obtained from rodents were examined for their genetic heterogeneity. On the basis of DNA restriction analysis, including amplified 16S ribosomal DNA restriction analysis (ARDRA) and pulsed-field gel electrophoresis (PFGE), differences were identified among the isolates. ARDRA typing with Hae III revealed 4 different banding patterns of the P. pneumotropica isolates. Eighty-two percent of the 23 isolates identified as a-1 were derived from mice, whereas all the isolates identified as a-3 were derived from rats. Most of the isolates, which showed hemolytic activity on blood agar, obtained from mice and rats, were identified as a-2 and a-4, respectively. By restriction analysis of genomic DNA, Apa I and Not I digestion differentiated 9 variants and an undiscriminating group. However, no close relation with regard to the phenotypic characteristics was observed among the variants. The isolates identified as a-2 and a-4 could not be distinguished by PFGE analysis. DNA restriction analysis revealed that the genetic diversity of the P. pneumotropica isolates was more complex than the phenotypic characteristics among the species, and that at least the P. pneumotropica isolates were clearly differentiated into 4 groups by ARDRA typing with Hae III.     

Survival and transmissibility of Pasteurella pneumotropica

Survival has been determined for Pasteurella pneumotropica on various surfaces found in an animal room at 23+/-1 degrees C and 50+/-10% relative humidity. Longest survival (120 min) was found on mouse hair, shortest (< 30 min) on laboratory coat fabric. Transmission experiments were performed using sentinel animals in order to evaluate the efficiency of their use for the detection of P. pneumotropica in quarantined mice. In sentinels exposed to infected mice by close contact, P. pneumotropica was detected by culture 2 weeks post-exposure and seroconversion 3 weeks after contact. Transfer of soiled bedding from Pasteurella-infected mice did not infect sentinels within a period of 12 weeks as tested by cultivation or serum antibodies.     

嗜肺巴氏杆菌在实验大鼠和小鼠中的传染性研究

目的观察不同来源的嗜肺巴氏杆菌在实验大鼠和小鼠中的传染性.方法取源于野鼠、实验大鼠和小鼠的嗜肺巴氏杆菌3株,对30只受试大鼠和小鼠进行交叉人工感染,并于感染后不同时期取咽拭子分离培养,对感染前后菌株,应用RAPD-PCR、SDS-PAGE和Western blot进行基因型、蛋白和抗原成份比较,以及生物学特性的比较.结果受试实验动物对3株嗜肺巴氏杆菌均易感,被接种的动物能稳定携带嗜肺巴氏杆菌直到试验结束,重新分离的嗜肺巴氏杆菌在生物学特性、蛋白成份、抗原性和基因型方面无明显改变.结论同一株嗜肺巴氏杆菌能在实验大鼠和小鼠中相互传染.     

Evaluation of PCR as a means of identification of Pasteurella pneumotropica.

A polymerase chain reaction with new primers (new PCR) designed from Pasteurella pneumotropica 16S rDNA as an identification system for this organism was compared with the PCR reported by Wang et al. (Wang's PCR) by using 15 bacterial reference species and 70 clinical isolates with the conventional identification system. For the 15 reference strains, both PCRs were identical. For the 70 clinical isolates, the new PCR and Wang's PCR showed consistency with the conventional system in 62.9% (44/70) and 51.4% (36/70), respectively. Twenty-six isolates were inconsistent with the conventional system and the new PCR with respect to morphology and serology. These findings suggested that the new PCR was more sensitive than Wang's PCR, and the new PCR in combination with morphology and serology is useful for P. pneumotropica identification.     

Ultrastructural characteristics of the external surfaces of Pasteurella pneumotropica from mice and Pasteurella multocida from rabbits

The surface structures of the cells of Pasteurella pneumotropica from mice and Pasteurella multocida from rabbits were examined by transmission electron microscopy after ruthenium red staining and polycationic ferritin labelling. P. pneumotropica strains ATCC 35149 and K 79114 had slight extracellular fibrous materials associated with cell walls with ruthenium red staining. Ferritin labelling method revealed thick strands or sparsely ferritin-labelled materials on the cell surface of the strains. P. multocida strains Pm-78 and P-2440 had ferritin-labelled capsules surrounded with the cell wall. Strain Pm-78, which was serotyped as A:12, had a thick capsule, whereas serotype -:3 strain P-2440 had a thin and irregular capsule.     

Elimination of Pasteurella pneumotropica from a contaminated mouse colony by oral administration of Enrofloxacin.

Enrofloxacin, a fluoroquinolone bactericidal antibiotic, was administered in an attempt to eradicate Pasteurella pneumotropica (P. pneumotropica) from a contaminated mouse colony. Contaminated mice, maintained within 4 animal rooms, were administered Enrofloxacin in drinking water at a daily dosage of 25.5 mg/kg for 2 weeks. Following one week of Enrofloxacin treatment, mice were selected randomly from each room and examined for P. pneumotropica. This procedure was repeated two or three times until all mice examined tested negative for the Pasteurella strain. With the exception of one room, treated mice consistently tested negative for P. pneumotropica for up to 45 weeks following completion of Enrofloxacin treatment. Thus, oral administration of Enrofloxacin significantly eliminated P. pneumotropica from a contaminated mouse colony.     

Implementation of a PCR assay of Pasteurella pneumotropica to accurately screen for contaminated laboratory mice

The authors implemented a PCR protocol to rapidly screen for Pasteurella pneumotropica and to accurately identify contaminated laboratory mice in a clinical setting. This protocol was implemented in response to a severe outbreak of P. pneumotropica in their animal facility. Although a sentinel program was in place to routinely screen for P. pneumotropica, it was inadequate for the identification of contaminated animals. As a result, several additional strains of mice were contaminated and developed clinical signs of infection. The authors implemented a screening method using PCR with reported primer pairs previously developed to identify the biotype isolates of P. pneumotropica in laboratory mice. Throat culture swabs were collected from live mice and placed in a bacterial culture. The DNA from these cultures was isolated and screened by PCR. This procedure enabled the authors to eliminate P. pneumotropica from several animal housing rooms. The assay can be easily applied in most animal facilities.     

嗜肺巴斯德杆菌选择性培养基研制及应用

目的　研制一种对嗜肺巴斯德杆菌表现出强选择作用的选择性培养基,用于该菌的常规检测。方法　药敏试验及抗生素最小抑菌浓度测定。结果　研制了嗜肺巴氏杆菌选择性培养基(PPSM培养基)及嗜肺巴斯德杆菌增菌液(PP肉汤)。嗜肺巴斯德杆菌在PPSM培养基上,37℃48h培养,形成1mm左右,凸起、湿润、灰黑色并有金属光泽的特殊菌落;对表皮葡萄球菌和大肠埃氏菌的抑制率为100%,对变形杆菌的抑制率为76%,并能抑制其迁徙生长;通过PP肉汤增菌培养,PPSM培养基使SPF小鼠粪便中嗜肺巴斯德杆菌检出率从0增至67.2%;用小鼠咽拭子接种该培养基,其初代培养物几乎为纯培养物。结论　该培养基对嗜肺巴氏杆菌具有较强的选择作用,使用该培养基对嗜肺巴氏杆菌进行检测可以简化检测程序、防止漏检、在不处死动物的情况下对嗜肺巴斯德杆菌进行常规监测。     

Phylogeny of 54 representative strains of species in the family Pasteurellaceae as determined by comparison of 16S rRNA sequences.

Virtually complete 16S rRNA sequences were determined for 54 representative strains of species in the family Pasteurellaceae. Of these strains, 15 were Pasteurella, 16 were Actinobacillus, and 23 were Haemophilus. A phylogenetic tree was constructed based on sequence similarity, using the Neighbor-Joining method. Fifty-three of the strains fell within four large clusters. The first cluster included the type strains of Haemophilus influenzae, H. aegyptius, H. aphrophilus, H. haemolyticus, H. paraphrophilus, H. segnis, and Actinobacillus actinomycetemcomitans. This cluster also contained A. actinomycetemcomitans FDC Y4, ATCC 29522, ATCC 29523, and ATCC 29524 and H. aphrophilus NCTC 7901. The second cluster included the type strains of A. seminis and Pasteurella aerogenes and H. somnus OVCG 43826. The third cluster was composed of the type strains of Pasteurella multocida, P. anatis, P. avium, P. canis, P. dagmatis, P. gallinarum, P. langaa, P. stomatis, P. volantium, H. haemoglobinophilus, H. parasuis, H. paracuniculus, H. paragallinarum, and A. capsulatus. This cluster also contained Pasteurella species A CCUG 18782, Pasteurella species B CCUG 19974, Haemophilus taxon C CAPM 5111, H. parasuis type 5 Nagasaki, P. volantium (H. parainfluenzae) NCTC 4101, and P. trehalosi NCTC 10624. The fourth cluster included the type strains of Actinobacillus lignieresii, A. equuli, A. pleuropneumoniae, A. suis, A. ureae, H. parahaemolyticus, H. parainfluenzae, H. paraphrohaemolyticus, H. ducreyi, and P. haemolytica. This cluster also contained Actinobacillus species strain CCUG 19799 (Bisgaard taxon 11), A. suis ATCC 15557, H. ducreyi ATCC 27722 and HD 35000, Haemophilus minor group strain 202, and H. parainfluenzae ATCC 29242. The type strain of P. pneumotropica branched alone to form a fifth group. The branching of the Pasteurellaceae family tree was quite complex. The four major clusters contained multiple subclusters. The clusters contained both rapidly and slowly evolving strains (indicated by differing numbers of base changes incorporated into the 16S rRNA sequence relative to outgroup organisms). While the results presented a clear picture of the phylogenetic relationships, the complexity of the branching will make division of the family into genera a difficult and somewhat subjective task. We do not suggest any taxonomic changes at this time.     

Role of Pasteurella pneumotropica and Mycoplasma pulmonis in Murine Pneumonia

Pneumonia caused by Mycoplasma pulmonis and Pasteurella pneumotropica was studied in conventional, specific pathogen-free (SPF), and germ-free mice. When P. pneumotropica was serially passed in conventional mice, M. pulmonis, as well as P. pneumotropica, was recovered from mice with gross lesions. When M. pulmonis was serially passed in conventional mice, both organisms were recovered. SPF mice given a nasal instillation of M. pulmonis alone, P. pneumotropica alone, or a combination of the two developed pneumonia when both organisms were present. These findings suggested that both organisms contribute to typical murine pneumonia. That M. pulmonis might be an L form of P. pneumotropica was suggested because some SPF mice inoculated with either organism yielded both on culture. This possibility was investigated with mole per cent guanine plus cytosine (GC) content and nucleic acid hybridization techniques. The GC content of P. pneumotropica is 42.2 mole per cent and that of M. pulmonis is 28.6 mole per cent. No specific hybrids between deoxyribonucleic acid (DNA) from M. pulmonis and DNA from P. pneumotropica were detected. This and the wide disparity in GC content showed that M. pulmonis is not an L form of P. pneumotropica. In germ-free mice, intranasal instillation with either organism alone produced pneumonia. The lesions produced when each organism was inoculated independently were characterized by areas of consolidation with perivascular and peribronchial lymphocytic infiltration. Qualitatively, the lesions produced when both organisms were inoculated simultaneously more closely resembled those seen in naturally occurring murine pneumonia. Statistical analysis indicated that the quantitative effect of the two organisms was additive. The indirect fluorescent antibody technique was used to locate organisms in lung tissue sections. M. pulmonis localized in the bronchial epithelium and P. pneumotropica localized in the alveolar lesions.     

Identification by 16S rDNA fragment amplification and determination of genetic diversity by random amplified polymorphic DNA analysis of Pasteurella pneumotropica isolated from laboratory rodents

Pasteurella pneumotropica is an opportunistic bacterium frequently isolated from colonies of various laboratory rodents. Identification of this species, including its differentiation into two distinct biotypes (Jawetz and Heyl), is usually based on the use of conventional bacteriologic methods. In this study, a 16S rDNA fragment amplification procedure was developed for use as an alternative method for identification and differentiation of P. pneumotropica. Polymerase chain reaction (PCR) products were two distinctive fragments of 937 and 564 bp specific for biotypes Jawetz and Heyl, respectively. Specificity of PCR products could be achieved by EcoRI cleavage, leading to 596 plus 341-bp and 346 plus 218-bp fragments for each of the amplification products. Use of this procedure confirmed identification of 34 field isolates and allowed definitive identification of some strains that could not have been done by use of bacteriologic examinations. Field isolates subjected to random amplified polymorphic DNA (RAPD) analysis had high genetic diversity among biotype Jawetz strains in contrast to biotype Heyl strains. In conclusion, RAPD could represent an additional means for identification of ambiguous strains of biotype Heyl and a valuable epidemiologic tool for identification of biotype Jawetz strains of P. pneumotropica.     

Characterization of some previously unclassified Pasteurellaceae isolated from hamsters

Bacteria isolated from purulent processes on the jaws of European hamsters (Cricetus cricetus) and from intestinal inflammatory processes in Syrian hamsters (Mesocricetus auratus), bred as laboratory animals have been shown to be phenotypically similar but not identical with Pasteurella pneumotropica. Deoxyribonucleic acid (DNA)-DNA hybridization studies indicate that with one exception, the strains represent two new species of the family Pasteurellaceae. In the absence of a close genomic relatedness to members of the genera Actinobacillus or Pasteurella or allied organisms, however, the two new taxa are described without any formal designation. The one exception was identified as Actinobacillus capsulatus, a species not previously isolated from hamsters.