Pathogenesis of Erysipelothrix piscisicarius infection in tiger barbs (Puntigrus tetrazona)

Erysipelothrix piscisicarius is an emerging bacterial pathogen and the aetiologic agent of piscine erysipelosis, a recently recognized disease of ornamental fish. However, little is known regarding the dynamics of infection in fish. The purpose of this study was to gain a better understanding of the pathogenesis of piscine erysipelosis in the tiger barb (Puntigrus tetrazona) by investigating tissue tropisms and responses to bacterial dissemination following immersion challenge with a virulent strain recovered from diseased fish. The challenge resulted in 83% mortality by day 16. Erysipelothrix piscisicarius DNA was first detected in the skin using quantitative PCR, and bacteria were visualized in association with microscopic lesions on day 4. By day 8, E. piscisicarius DNA was further detected in intestines, hearts, spleens, gills and skin; parenchymal organs were largely spared. The data suggest a primary cutaneous portal of entry and tropism for collagenous tissues, particularly those within vascular walls. Initial spread occurs directly from the dermis into interstitial areas of skeletal muscle, then centrally to the peritoneum and coelomic cavity following collagenous tissue pathways. Although histopathology revealed widespread bacterial dissemination over time, the severity of skin and muscle lesions with high levels of bacterial DNA identifies these tissues as primary targets of infection.

Transcription analysis of the responses of porcine heart to Erysipelothrix rhusiopathiae

Erysipelothrix rhusiopathiae (E. rhusiopathiae) is the causative agent of swine erysipelas. This microbe has caused great economic losses in China and in other countries. In this study, high-throughput cDNA microarray assays were employed to evaluate the host responses of porcine heart to E. rhusiopathiae and to gain additional insights into its pathogenesis. A total of 394 DE transcripts were detected in the active virulent E. rhusiopathiae infection group compared with the PBS group at 4 days post-infection. Moreover, 262 transcripts were upregulated and 132 transcripts were downregulated. Differentially expressed genes were involved in many vital functional classes, including inflammatory and immune responses, signal transduction, apoptosis, transport, protein phosphorylation and dephosphorylation, metabolic processes, chemotaxis, cell adhesion, and innate immune responses. Pathway analysis demonstrated that the most significant pathways were Chemokine signaling pathway, NF-kappa B signaling pathway, TLR pathway, CAMs, systemic lupus erythematosus, chemokine signaling pathway, Cytokine–cytokine receptor interaction, PI3K-Akt signaling pathway, Phagosome, HTLV-I infection, Measles, Rheumatoid arthritis and natural-killer-cell-mediated cytotoxicity. The reliability of our microarray data was verified by performing quantitative real-time PCR. This study is the first to document the response of piglet heart to E. rhusiopathiae infection. The observed gene expression profile could help screen potential host agents that can reduce the prevalence of E. rhusiopathiae. The profile might also provide insights into the underlying pathological changes that occur in pigs infected with E. rhusiopathiae.

Characterization of Erysipelothrix rhusiopathiae strains isolated from acute swine erysipelas outbreaks in Eastern China

Recently, a series of acute swine erysipelas outbreaks occurred in Eastern China. Eight strains isolated from cases of septicemia were determined as serotype 1a, and 4 of the isolates were resistant to acriflavine. One isolate strain named HX130709 was attenuated on agar media containing acriflavine dye. The 432-bp hypervariable region in spaA gene of the field and attenuated strains were amplified and sequenced. It was further compared with the vaccine strain G4T10, and thus, the eight field strains can be divided into four spaA-types. The partial spaA gene analysis also showed that no point mutations occurred among different archived passages of HX130709 during the attenuation. Results of pulsed-field gel electrophoresis showed that eight distinct patterns with 22 to 30 DNA fragment bands were produced from field strains, and twelve distinct patterns with 23 to 27 DNA fragment bands were produced from different passages of the attenuated strains. Mouse pathogenicity test showed that the mortality of the mice infected with 10(4) CFU field strains was 100% and the attenuation of strain HX130709 occurred between 46 and 50 passages. All the field and attenuated strains were highly sensitive to β-lactam antibiotics, tetracyclines and macrolides. So, we can make conclusions that the acute swine erysipelas outbreaks in Eastern China were caused by serotype 1a E. rhusiopathiae strains with different biochemical characteristics, and the virulence of serotype 1a E. rhusiopathiae strains is unrelated with some point mutations in 432-bp hypervariable region of the spaA gene.

Serological and pathogenic characterization of Erysipelothrix rhusiopathiae isolates from two human cases of endocarditis in Japan

We characterized the serological and pathogenic properties of two Erysipelothrix rhusiopathiae isolates from human cases of infective endocarditis in Japan. One isolate was recovered from a fisherman, and was identified as serovar 3, which is known to be prevalent among fish isolates. This strain exhibited high virulence in mice but was avirulent in swine. Another was untypable, and avirulent in both mice and swine. Our results suggest that various serological and athogenical types of E. rhusiopathiae can induce human endocarditis. This is the first report to characterize the pathogenicity of E. rhusiopathiae isolates from human endocarditis.

Erysipelothrix rhusiopathiae infection of a total knee arthroplasty an occupational hazard

A 76-year-old man with a medical history of rheumatoid arthritis, lupus intersititial nephritis, and steroid therapy was found at first-stage revision total knee arthroplasty to have Erysipelothrix rhusiopathiae (a zoonotic pathogen normally associated with pigs and fish) infection of the arthroplasty. He had a history of potential occupational exposure to the organism. On literature review, we found only 3 other case reports of E rhusiopathiae linked to septic arthritis in humans. This unique case of an infected joint arthroplasty further illustrates the pathogenicity of E rhusiopathiae in humans.

Invasive Erysipelothrix rhusiopathiae infection in northeast Thailand

Three cases of invasive Erysipelothrix rhusipathiae infection, which is considered rare, presented to a hospital in Ubon Ratchathani, northeast Thailand during 2006. Patients presented with variable clinical manifestations including diffused cutaneous lesions, bacteremia and endocarditis. Erysipelothrix infection may be an emerging infection in immunocompromized individuals in Thailand.

Erysipelothrix rhusiopathiae neuraminidase and its role in pathogenicity

The role of the enzyme neuraminidase in pathogenicity of the bacillus Erysipelothrix rhusiopathiae was studied. Different substances with low and high molecular weight were tested as inducers of E. rhusiopathiae neuraminidase biosynthesis. It was found that macromolecular complexes induce the secretion of the enzyme. K(M) values for different substrates showed that the affinity of the E. rhusiopathiae neuraminidase increases in parallel with the enlargement of the molecular weight of glycoproteins. Results from the rabbits skin test confirmed the role of E. rhusiopathiae neuraminidase as a factor of pathogenicity with spreading functions.

The evaluation of trifloxystrobin in protection of Calendula officinalis (Pot marigold) against Erysiphe cichoracearum DC

The aim of the two-years field's examinations was the evaluation of the fungicide Zato 50 WG (biologically active substances BAS--trifloxystrobin 50%) in protection of Calendula officinalis (Pot marigold) against Erysiphe cichoracearum. Mentioned fungicide was applied at three concentrations: 0.1, 0.15 and 0.2%. As the standard fungicide Amistar 250 SC (biologically active substances BAS - azoxystrobin 250 g/dm3) was used. In every year of research work the four protective treatments were carried out. The estimation of infestation degree of Calendula officinalis leafs by the Erysiphe cichoracearum was made 5 times. Before each treatment four analysis were done, whereas the last analysis--the fifth one was executed after 10 days from the last protective spraying. According to the results, it was found that investigated preparations significant reduced the mean infestation degree of Calendula officinalis leafs by the Erysiphe cichoracearum compared to the control. The results pointed, that in protection of the mentioned plant by the powdery mildew the 0.2% dose of Zato 50WG showed the best suitability.

Investigations on the Pathogenicity of Erysipelothrix rhusiopathiae in Laying Hens

Erysipelas was diagnosed in 1998 from 34-wk-old laying hens in a free range flock in Germany. Erysipelothrix rhusiopathiae of serotype 1 was cultured from internal organs of the affected birds. This article describes the pathogenicity of the field isolate of E. rhusiopathiae in experimentally infected specific pathogen-free (SPF) laying hens. Three experiments were performed with SPF chickens inoculated at 17, 27, and 37 wk of age by either intramuscular (IM) or oral route. Inoculated birds were observed for 14 days. The highest mortality rates occurred in older birds, with 100% mortality observed in the 37-wk-old birds inoculated IM, 60% mortality reported in the younger 27-wk-old birds, and no mortality in the 17-wk-old age group. In the orally infected 27-wk-old birds, 40% mortality was detected, whereas no mortality was observed in the oldest birds by the same route. The results of the experiments support the contention that older birds are more sensitive to infection than younger birds and that mortality in laying hens is age related and dependent on the route of infection.

Necrotizing Fasciitis Caused by Erysipelothrix rhusiopathiae

A woman with diabetes mellitus type 2 had a thigh infection that drained foul-smelling pus. Necrotizing fasciitis was diagnosed surgically and histopathologically, with Erysipelothrix rhusiopathiae being the predominant organism. A pet goldfish might have been the source.

Erysipelothrix rhusiopathiae septic arthritis

We describe herein the case of a man with Erysipelothrix rhusiopathiae septic arthritis and possible infective endocarditis. This is the first report in the English-language medical literature of septic arthritis caused by this organism.

Pathogenicity for mice and swine of Erysipelothrix isolates from the tonsils of healthy cattle

The pathogenicity of 79 Erysipelothrix isolates from bovine tonsils for mice and swine was determined. Five (6.3%) isolates were lethal for mice. These isolates belonged to serovars 1b (one isolate), 2 (2), 19 (1) and 21 (1). The 50% lethal dose values of the isolates ranged from 0.33 to 5x10(2) CFUs in mice. Twenty Erysipelothrix isolates (25.3%) were weakly virulent inducing only emaciation while 12 (15.2%) inducing emaciation and ruffled hair. In swine, clinical signs of varying severity were observed. Four isolates were virulent, capable of inducing localized or generalized urticarial lesions accompanied with a rise in body temperature after intradermal inoculation. One isolate each of serovars 1b, 2 and 19 was highly virulent, capable of inducing generalized urticarial lesions while another Erysipelothrix isolate of serovar 2 induced only a localized urticarial lesion at the site of inoculation. Another isolate of serovar 1b induced itching and irritation without obvious urticarial lesion at the site of inoculation. On the other hand, one isolate of serovar 21 and two other isolates of serovar 2 could not induce experimentally any clinical sign of erysipelas other than rise in body temperature. There was a rise in growth agglutination (GA) titer of serum in all the inoculated swine. These observations suggest that Erysipelothrix isolates from cattle are pathogenic for mouse and swine, and may also be pathogenic for other animals and humans.

Hyaluronidase is not essential for the lethality of Erysipelothrix rhusiopathiae infection in mice

To investigate the role of hyaluronidase in the pathogenicity of Erysipelothrix rhusiopathiae, transposon Tn916 was transferred from Enterococcus faecalis CG110 to a virulent strain of E. rhusiopathiae, and hyaluronidase-deficient mutants were isolated. A virulence assay in the mice showed that of the seven hyaluronidase-deficient mutants tested, six mutants were avirulent, but that one mutant, designated AST121, was as virulent as its parental strain. Western immunoblotting with a monoclonal antibody specific to the capsule, a major virulence factor of the organism, revealed that all of the avirulent mutants had lost the capsular antigen, whereas the mutant AST121 did not. These results suggest that the lack of virulence of the six hyaluronidase-negative mutants could be due to a loss of the capsule and that hyaluronidase does not contribute to the lethality of E. rhusiopathiae infection in mice.

Erysipelothrix rhusiopathiae YS-1 as a live vaccine vehicle for heterologous protein expression and intranasal immunization of pigs

We have developed a system in which a foreign antigen is delivered and expressed on the surface of an attenuated strain of Erysipelothrix rhusiopathiae YS-1 and have examined the ability of a such recombinant E. rhusiopathiae strain to function as a mucosal vaccine vector. The C-terminal portion, including two repeat regions, R1 and R2, of the P97 adhesin of Mycoplasma hyopneumoniae strain E-1 was successfully translocated and expressed on the E. rhusiopathiae YS-1 cell surface after it was fused to SpaA.1, a cell surface protective antigen of E. rhusiopathiae. BALB/c mice subcutaneously immunized with the E. rhusiopathiae recombinant strains developed specific antibodies against SpaA.1 protein and were protected from lethal challenge with the highly virulent homologous E. rhusiopathiae Fujisawa-SmR strain, showing the efficacy of this heterologous-antigen expression system as a vaccine against E. rhusiopathiae infection. To determine whether protective immune responses are induced in target species, newborn, specific-pathogen-free piglets were immunized intranasally with a recombinant strain designated YS-19. The immunized piglets developed specific anti-SpaA.1 immunoglobulin G (IgG) antibodies in their serum and were protected from death by erysipelas, showing that mucosal vaccination of piglets with YS-19 induces systemic immune responses. Furthermore, YS-19-immunized piglets showed higher levels of P97-specific IgA antibodies in the respiratory tract than did YS-1-immunized piglets. Thus, E. rhusiopathiae YS-1 appears to be a promising vaccine vector for mucosal delivery that can induce local and systemic immune responses.

Pathogenicity of Erysipelothrix rhusiopathiae: virulence factors and protective immunity

Erysipelothrix rhusiopathiae is the causative agent of erysipelas in animals and erysipeloid in humans. In the absence of specific antibodies, the organism evades phagocytosis by phagocytic cells, but even if phagocytized, it is able to replicate intracellulary in these cells. In this review, recent advances in our understanding of the pathogenicity of E. rhusiopathiae and its protective immunity are described.

Serovar, pathogenicity and antimicrobial susceptibility of erysipelothrix rhusiopathiae isolates from farmed wild boars (Sus scrofa) affected with septicemic erysipelas in Japan

Six strains of Erysipelothrix rhusiopathiae were isolated from farmed wild boars with acute septicemic erysipelas during the period from 1983 to 1998 in Japan. All isolates belonged to serovar 1a or 2 (predominant serovars in swine). The 50 per cent lethal dose values of those isolates ranged from 10(1.3)to 10(6.2)colony forming units in mice. In swine, all isolates were virulent, capable of inducing localized or generalized urticarial lesions after intradermal inoculation. All of the isolates were resistant to oxytetracycline and/or dihydrostreptomycin. These observations suggest that E. rhusiopathiae strains isolated from wild boars may have aetiological significance in swine erysipelas.

Serotyping and pathogenicity of Erysipelothrix strains isolated from tonsils of slaughter pigs in Thailand

Erysipelothrix strains were isolated from the tonsils of 46 (15.0%) of 307 apparently healthy slaughter pigs in Thailand during the period of August to September, 1997. A total of 27 of the 46 Erysipelothrix isolates could be classified into 5 serovars but the remaining 19 were untypable in this study. Of the 25 isolates serologically identified as Erysipelothrix rhusiopathiae, 20, 4, and 1 isolates belonged to serovars 2, 12, and 17, respectively. Only 2 isolates from the tonsils belonged to Erysipelothrix tonsillarum and represented either serovar 7 or 10. Although the periods and the districts of the survey were limited, the information obtained in the present investigation demonstrates the presence of a variety of serovars in pigs in Thailand. Of 29 selected isolates belonging to serovars 2, 7, 10, 12, 17, and untypable, only 5 (17.2%) were virulent for both mice and pigs. Five of these virulent isolates belonging to serovars 2 and 12 killed less than 30% of mice immunized with a swine erysipelas bacterin commercially available in Thailand, suggesting that the vaccine elicited a sufficient immunity to these field isolates.

Erysipelothrix rhusiopathiae: bacteriology, epidemiology and clinical manifestations of an occupational pathogen

Erysipelothrix rhusiopathiae has been recognised as a cause of infection in animals and man since the late 1880s. It is the aetiological agent of swine erysipelas, and also causes economically important diseases in turkeys, chickens, ducks and emus, and other farmed animals such as sheep. The organism has the ability to persist for long periods in the environment and survive in marine locations. Infection in man is occupationally related, occurring principally as a result of contact with animals, their products or wastes. Human infection can take one of three forms: a mild cutaneous infection known as erysipeloid, a diffuse cutaneous form and a serious although rare systemic complication with septicaemia and endocarditis. While it has been suggested that the incidence of human infection could be declining because of technological advances in animal industries, infection still occurs in specific environments. Furthermore, infection by the organism may be under-diagnosed because of the resemblance it bears to other infections and the problems that may be encountered in isolation and identification. Diagnosis of erysipeloid can be difficult if not recognised clinically, as culture is lengthy and the organism resides deep in the skin. There have been recent advances in molecular approaches to diagnosis and in understanding of Erysipelothrix taxonomy and pathogenesis. Two PCR assays have been described for the diagnosis of swine erysipelas, one of which has been applied successfully to human samples. Treatment by oral and intramuscular penicillin is effective. However, containment and control procedures are far more effective ways to reduce infection in both man and animals.

Erysipelothrix rhusiopathiae: an uncommon but ever present zoonosis

Erysipelothrix rhusiopathiae is an important animal pathogen with a worldwide distribution, yet this zoonotic infection is rarely reported in humans. Three cases of E. rhusiopathiae infection, which illustrate the varied clinical presentations of this pathogen in humans, are presented together with the pathological findings and treatment regimens.

Isolation of acriflavine resistant Erysipelothrix rhusiopathiae from slaughter pigs in Japan

Erysipelothrix rhusiopathiae is the causative agent of swine erysipelas. Although an attenuated vaccine is used in Japan, recent increases in disease occurrence have cast doubts on its efficacy. We investigated the similarity between the vaccine strain and E. rhusiopathiae field isolates by the analysis of acriflavine resistance (the vaccine strain marker), serotype, DNA fingerprinting and pathogenicity to mice. Although 7 acriflavine resistant E. rhusiopathiae isolates were separated from arthritic lesions of slaughter pigs, we were unable to prove that they were identical to the vaccine strain.

Construction and vaccine potential of acapsular mutants of Erysipelothrix rhusiopathiae: use of excision of Tn916 to inactivate a target gene

We previously showed that acapsular transposon Tn916 mutants of Erysipelothrix rhusiopathiae are avirulent for mice. In this study, we constructed nonreverting acapsular mutants and examined the vaccine potential of the mutants in mice. A representative acapsular transposon mutant, 33H6, was plated on selective agar containing autoclaved chlortetracycline and quinaldic acid, and two tetracycline-sensitive mutants were obtained. Sequence analysis of chromosomal regions of the mutants in which Tn916 had flanked revealed that Tn916 had spontaneously excised from the region and that the six new nucleotides, which were presumably inserted with Tn916 into 33H6 chromosome, substituted for those present at the insertion site. The mutants were confirmed to be devoid of capsular antigen by Western immunoblotting and were nonvirulent for mice (subcutaneous 50% lethal dose [LD50], >10(9) CFU). The safety and efficacy of acapsular mutants for live vaccines was further studied by using one mutant strain, named YS-1. The YS-1 bacteria were cleared from the skin sites of inoculation, livers, and spleens of the inoculated mice by 7 days after subcutaneous (s.c.) inoculation. Mice immunized s.c. with doses ranging from 2 x 10(4) to 2 x 10(8) CFU of strain YS-1 were completely protected against challenge with 100 LD50 of the homologous, highly virulent strain Fujisawa-SmR 21 days postimmunization, and protective immunity conferred by immunization with 2 x 10(8) CFU of the strain lasted for as long as the 3 months of the observation period. In passive immunization experiments, sera collected from mice immunized with strain YS-1 at days 14 and 21 postimmunization provided protection against challenge with Fujisawa-SmR, whereas sera collected at days 4 and 7 did not. Furthermore, specific spleen cell responses to E. rhusiopathiae antigens were observed in mice immunized with strain YS-1, and cross-protection against the antigenically heterologous bacterium Listeria monocytogenes was observed at 7 days after immunization in the mice, suggesting that cell-mediated immunity had been induced. These results suggest that E. rhusiopathiae YS-1 may be a suitable choice for further studies of vaccine efficacy in swine.

Intracellular survival and replication of Erysipelothrix rhusiopathiae within murine macrophages: failure of induction of the oxidative burst of macrophages

We investigated the ability of a virulent wild-type parent strain and acapsular avirulent transposon mutants to enter and survive intracellularly within murine peritoneal macrophages. In the presence of normal or immune serum, the parent and mutant strains were both ingested; however, the number of ingested bacteria was three- to fourfold greater in the case of mutant strains than in the case of the parent strain. The parent strain, but not the mutant strains, survived and replicated intracellularly when ingested in the presence of normal serum, whereas both the parent and the mutant strains were readily killed when ingested in the presence of immune serum. To further investigate the mechanism by which the parent strain can survive and replicate within macrophages, we studied the oxidative burst response of macrophages to these strains by measuring chemiluminescence and intracellular reduction of Nitro Blue Tetrazolium dye. Challenge exposure of macrophages with either the parent strain preopsonized with immune serum or the mutant strains preopsonized with normal or immune serum induced a strong oxidative burst, whereas the level was very low when the parent strain was preopsonized with normal serum. Phagocytosis of either the parent strain, in the presence of immune serum, or the mutant strains, in the presence of normal or immune serum, by macrophages reduced large amounts of intracellular Nitro Blue Tetrazolium, whereas minimal amounts were reduced by the parent strain in the presence of normal serum. These results suggest that virulent E. rhusiopathiae can survive and subsequently replicate within murine macrophages when ingested in the presence of normal serum and that the reduced production of reactive oxidative metabolites by macrophages may, in part, be responsible for this occurrence.

[Erysipelothrix rhusiopathiae: plasmids, resistance to antibacterial drugs]

The plasmid profile, virulence and antibacterial drug susceptibility of various strains of E. rhusiopathiae were determined. No correlations between the virulence of the strains, their antibiotic resistance and the plasmid content were detected. Structural and functional analysis of one of the isolated plasmids was carried out to use the plasmid as a vector in the genetic study of E. rhusiopathiae.

Localization of viable bacteria and bacterial antigens in arthritic joints of Erysipelothrix rhusiopathiae-infected pigs

Chronic polyarthritis was induced in pigs by infection with Erysipelothrix rhusiopathiae (serovar 2, strain T28). Viable bacteria could be reisolated as long as 5 months post-infection from synovial fluid, synovial tissue and from isolated chondrocytes. The number of viable bacteria could be increased by hypotonic shock of the chondrocytes indicating a substantial intracellular amount of bacteria. Bacterial antigens were shown by immunohistochemistry to be present on the surface of both chondrocytes and synovial cells in arthritic joints. Neither viable bacteria nor bacterial antigen were detected in unaffected joints.

Presence of a capsule in Erysipelothrix rhusiopathiae and its relationship to virulence for mice

Three avirulent insertional mutants of Erysipelothrix rhusiopathiae were obtained by the technique of transposon mutagenesis with the self-conjugative transposon Tn916. The interactions between murine polymorphonuclear leukocytes and parent and mutant strains were studied in vitro. In the presence of normal serum, the virulent parent strain was resistant to phagocytosis, whereas the avirulent mutant strains were efficiently phagocytosed. In the presence of immune serum, the parent and the mutant strains were both efficiently phagocytosed. Electron microscopic examination of the parent strain demonstrated the presence of a structure resembling a capsule which was absent on the mutant strains, suggesting that a capsule may be involved in virulence. This was confirmed in studies in which an avirulent mutant strain reverted to virulence following acquisition of a capsule when the transposon was lost by spontaneous excision. These results strongly suggest that virulence of E. rhusiopathiae is associated, at least in part, with resistance to phagocytosis by polymorphonuclear leukocytes and that this antiphagocytic ability of the bacterium results from its possession of a capsule.

Comparison of etiological and immunological characteristics of two attenuated Erysipelothrix rhusiopathiae strains of serotypes 1a and 2

Two acriflavine-fast attenuated Erysipelothrix rhusiopathiae strains Koganei 65-0.15 of serotype 1a (strain Kg-1a) and 2 (strain Kg-2) were comparatively characterized. Biochemical characterization showed the similar reactions with slight variation between the strains. Strain Kg-2 was more resistant to acriflavine dye than strain Kg-1a. Pathogenicity of strain Kg-2 was higher than strain Kg-1a in mice of strains ddY. C3H/He and A/J. Significant differences of clinical signs between strains Kg-1a and Kg-2 were observed in occurrence of arthritis (P < 0.05) and systemic signs (P < 0.01) of only ddY mice. C3H/He mice was more resistant than ddY and A/J mice to the infection of strains Kg-1a and Kg-2. Three culture fractions, whole culture: WC, culture filtrate: CF and killed cells: KC, of strain Kg-2 were more protective than those of strain Kg-1a in ddY mice. CF of strain Kg-2 was most protective in all fractions. Heating at 56 degrees C and 100 degrees C or treatment with trypsin completely reduced the protective activity of WC of the two strains, indicating that major protective antigens of WC were protein. The present results demonstrated that immunogenicity and pathogenicity for mice were different between the two attenuated strains.

[The development of a technology for the production of live dried vaccines against avian pasteurellosis and swine erysipelas]

The technology of the production of dried live vaccine against Pasteurella infection of fowl from Pasteur's 2nd avirulent strain, strains AB and K, has been developed. This technology includes the process of batch cultivation of Pasteurella cells, controlled in such parameters as eH, pO2 and glucose concentration, in fermenters in optimized culture medium, based on Hottinger hydrolysate and fermentative casein-yeast hydrolysate, and preservation in improved saccharose-gelatin medium prepared in potassium sulfate buffer solution. The new technology makes it possible to increase the yield of preparations with stable biological activity 5- to 13-fold in comparison with the traditional technology. Furthermore, the technology of the production of live dried vaccine against swine erysipelas from Erysipelothrix insidiosa strain BP-2 has been developed. This technology is based on maintaining the optimum conditions of the batch cultivation of E. insidiosa in meat medium based on Hottinger hydrolysate and media obtained from hydrolysate of pancreatic fermentation products of microbial biomass; the preparation thus obtained is stabilized in peptone-saccharose-gelatin medium prepared in potassium phosphate buffer solution. This increases the yield of the vaccine 8-fold in comparison with the traditional technology, while ensuring the stability of bacteria after drying and during prolonged storage.

Erysipelothrix tonsillarum isolated from dogs with endocarditis in Belgium

Five strains of Erysipelothrix tonsillarum were isolated from dogs with endocarditis in Belgium. The identity and validity of the species was proved by serotyping, and biochemical and pathogenicity tests. All the isolates belonged to serovar 7 (E tonsillarum serovars); they produced acid from saccharose but did not induce any clinical sign of erysipelas in swine. These results suggest that some strains of E tonsillarum are a canine pathogen.

Adjuvant properties of Propionibacterium avidum KP-40 in vaccination against endemic viral and bacterial infections. III. Swine immunized with live attenuated Erysipelothrix rhusiopathiae vaccine and experimentally infected with virulent strains R203 and R270B of E. rhusiopathiae

Fifty 4-month old piglets were treated with immunomodulating Propionibacterium avidum KP-40 (PA) and/or immunized with live attenuated Erysipelothrix rhusiopathiae vaccine (Orvac). Four weeks after vaccination all animals were inoculated with viable Erysipelothrix rhusipathiae. The vaccine induced the appearance of high titers of specific IgG antibodies with peak values (1:115-1:200) three weeks after immunization. Administration of PA together with the vaccine did not influence antibody titers. Analysis of the course of experimental erysipelas infection in vaccinated and/or PA-treated swine revealed the prophylactic and beneficial effects of PA. PA-treated animals showed a significantly lower lethality rate than untreated controls and the course of the disease was considerably milder, with a shorter period of fever and a faster recovery. Vaccination provided good protection of swine against the development of erysipelas and therefore, the only significant difference in animals treated with PA applied together with the vaccine was a higher gain of body mass after infection.

DNA relatedness among Erysipelothrix rhusiopathiae strains representing all twenty-three serovars and Erysipelothrix tonsillarum

The levels of relatedness among strains of Erysipelothrix rhusiopathiae (serovars 1 through 23 and type N) were estimated by performing DNA-DNA hybridization experiments with the type strains of E. rhusiopathiae and Erysipelothrix tonsillarum, which are the two Erysipelothrix species that have been described. Two distinct DNA relatedness groups were identified. The group 1 strains, representing serovars 1, 2, 4 through 6, 8, 9, 11, 12, 15 through 17, 19, and 21 and type N, exhibited more than 73% hybridization with the type strain of E. rhusiopathiae but less than 24% hybridization with the type strain of E. tonsillarum. Group 2 included serovar 3, 7, 10, 14, 20, 22, and 23 strains, and these strains exhibited more than 66% hybridization with the type strain of E. tonsillarum but less than 27% hybridization with the type strain of E. rhusiopathiae. Strains representing serovars 13 and 18 exhibited low levels of hybridization (16 to 47%) with both of the type strains, indicating that these serovars may be members of a new genomic species. The members of the E. rhusiopathiae and E. tonsillarum groups resembled each other in many phenotypic characteristics, but differed in their ability to produce acid from saccharose and in their pathogenicity for swine. Our results confirm that the genus Erysipelothrix contains two main genomic species, E. rhusiopathiae and E. tonsillarum, which can be differentiated into serovars.

Serological and pathogenic characterization of Erysipelothrix rhusiopathiae isolates from tonsils of slaughter pigs in Indonesia

Erysipelothrix rhusiopathiae was isolated from tonsils of 245 (35.7%) of 687 apparently healthy slaughter pigs in Indonesia during the period of June 1987 to February 1988. A total of 150 of the 245 E. rhusiopathiae isolated could be serotyped within the 22 recognized serotypes. Serotype 2 was most prevalent with 23.7%, followed by Serotypes 11, 12, 1a, 5 and 6 representing 7.3, 5.3, 4.9, 4.9 and 4.1% of the isolates, respectively. The nine other serotypes (Serotypes 1b, 3, 4, 8, 9, 10, 13, 19 and 22) combined to make up 11.0% of the isolates. Antibiotic-resistant strains were not found. Of 86 selected isolates belonging to various serotypes, 76 (88.4%) were highly virulent for mice (LD50 less than 10(3.0) colony-forming units). In swine, 40 (51.2%) of 78 isolates induced local or generalized urticarial lesions after intradermal inoculation, and the remaining 38 isolates induced no clinical signs. Of 76 isolates used for challenge in the cross-protection study, 29 (38.2%) killed greater than 40% of mice immunized with an erysipelas bacterin marketed in Indonesia. A tendency to be refractory to the bacterin-induced immunity was observed in some isolates of various serotypes, but this characteristic was not consistent.

[Erysipelas as a disease factor]

The infection with Erysipelas rhusiopathiae demonstrates that it is possible to characterize the significance of predisposing factors. The virulence of the agent is most important among the exogenous factors; it determines decisively the course of the disease: 1. paracute course as septicemia; 2. chronic course as polyarthritis; 3. subclinical course nearly without any symptoms. The immune status and the genotype of the host are predominant out of endogenous factors. The importance of immunity is known since a long time. A series of field observations supported the potential genetical influence in the pig. Within the hereditability an association to the MHC (in special genetic lines of rats to the RT 1 system of the MHC) was most recently determined in inbred laboratory animals. Additionally several environmental conditions, which can be summarized as stress, and as endogenous factor the age of the animals are relevant for the pathogenesis of the erysipelas infection. A non variable but most important disposition for special tissues are the so-called "borderline tissues", where accumulation, sedimentation and persistence of bacterial antigens are wellknown as described earlier. This phenomenon is determined by hemodynamic manifestation and quantifiably regulated by cytokines especially interleukin (IL 1) as well as by the tumor necrosis factor (TNF alpha) and prostaglandin PgE2. Additionally the cross reactivity of antibodies of Erysipelas rhusiopathiae against most specific collagen of type II, IX and XI in the pig and in laboratory animals was elaborated. This autoimmune phenomenon called "immunologic mimicry" supports besides the special physiologic conditions as niche of defense a very successful evolutionary adaptation of the agent.

Occurrence of Erysipelothrix rhusiopathiae on pork and in pig slurry, and the distribution of specific antibodies in abattoir workers

Strains of Erysipelothrix rhusiopathiae isolated at 19 pig farms serving a certain abattoir, and on pork and in workers of this abattoir were studied. Mouse-pathogenic E. rhusiopathiae was found in pig slurry from two farms (11%). The strains belonged to serotypes 7 and 16 (both from the same farm) or were untypable. In pig slurry from the abattoir lairage only serotype 2 strains were found and all were pathogenic to mice. Mouse-pathogenic E. rhusiopathiae strains of serotype 2 were also recovered from 25 pork lions (25%). A mouse-pathogenic E. rhusiopathiae (serotype 2) strain was isolated from one of the 16 hand infections of slaughterhouse workers. The E. rhusiopathiae strains were phenotypically grouped by the API 50 CH system. Variations were demonstrated for the different serotypes. In 20 of 138 workers antibodies against E. rhusiopathiae were found; 14 had increased levels of IgG antibodies, seven had increased levels of IgM antibodies and one had an increased level of both.

Pathogenicity of field isolates of Erysipelothrix rhusiopathiae in mice, rats and pigs

Eight field isolates of Erysipelothrix rhusiopathiae serotypes 1 and 2, from different sources, were examined for their pathogenicities for mice and pigs. Arthritogenicity for pigs correlated with virulence for mice at the highest and lowest levels, but not with strains of intermediate virulence. The most virulent strain was also arthritogenic in rats. In pigs, after repeated intravenous challenge the number of affected joints ranged from 0 to 11 of 12 examined. For the 8 strains, the mean number of affected joints ranged from 1 to 7.7 per pig. Clinical course and pathological findings were correlated, but the onset, severity and duration of lameness was variable both within and between groups. Clinical lameness, joint swelling and urticariae were of limited use as indicators of joint changes. The more virulent strains caused lameness as early as 2 days, whereas strains of low virulence took up to 8 weeks.

Detection of coagulase activity in Erysipelothrix rhusiopathiae

Coagulase activity was detected in 99% of 225 strains of Erysipelothrix rhusiopathiae. These strains included isolates from a variety of animal and environmental sources. Activity could be detected by the tube or slide technique, with the tube reactions being easier to interpret. Coagulation of rabbit and/or bovine plasma was observed, with most strains reacting in both. The activity appeared to be a common characteristic of the species and may be useful in differentiating E. rhusiopathiae from Listeria and Corynebacterium species, which fail to demonstrate the activity. There was no correlation noted between coagulase activity and the serotype, source, geographic origin, or virulence (as detected by mouse pathogenicity tests) of the isolates.

Serotype, antimicrobial susceptibility, and pathogenicity of Erysipelothrix rhusiopathiae isolates from tonsils of apparently healthy slaughter pigs

Erysipelothrix rhusiopathiae was isolated from tonsils of 63 (10.5%) of 600 apparently healthy slaughter pigs in the Kanto area of Japan in February and July 1984. The isolation rate was significantly higher during July than in February. Of these 63 isolates, 34 isolates (54.0%) were serotype 7, 20 isolates (31.7%) were serotype 2, 6 isolates (9.5%) were serotype 6, and 1 isolate (1.6%) each was serotype 11, 12, or 16. All isolates of serotypes 2, 6, 11, 12, and 16 were highly virulent for mice, whereas most isolates of serotype 7 were weakly virulent. In swine, all isolates of serotype 2 were highly virulent, capable of inducing generalized urticarial lesions with depression and anorexia. On the other hand, 37 of 43 isolates of serotypes other than 2 induced no clinical signs, and the remaining 6 isolates induced local urticarial lesions at the site of inoculation in swine. The MIC of dihydrostreptomycin ranged from 1.56 to 100 micrograms/ml. All of the dihydrostreptomycin-resistant strains belonged to serotype 2. The high virulence of E. rhusiopathiae strains of serotype 2 harbored in the tonsils suggests a possible role of such strains in the cause of swine erysipelas. In contrast, members of the other nonvirulent or weakly virulent group, mainly serotype 7 strains, were considered to be resident in porcine tonsils.

Cross protection of mice and swine given live-organism vaccine against challenge exposure with strains of Erysipelothrix rhusiopathiae representing ten serovars

Mice and swine vaccinated (subcutaneous inoculation) with live acriflavine-fast attenuated Erysipelothrix rhusiopathiae, strain Koganei 65-0.15 (serovar 2), were challenge exposed with 10 strains of E rhusiopathiae pathogenic for swine; the latter strains comprised serovars 9 and 10 and other previously undetermined. Vaccinated mice did not die after they were challenge exposed (subcutaneous inoculation) with serovars 4, 6, 7, 8, 9, 10, 15, 16, or N, but vaccinated mice challenge exposed with strain 2553 (serovar 20) had 30% mortality. Nonvaccinated control mice died after they were challenge exposed with all serovars tested. One of 2 vaccinated swine challenge exposed (intradermal inoculation) with each of strains 911 (serovar 8), 2179 (serovar 10), or 2553 developed localized urticarial lesion at the site of intradermal inoculation. Vaccinated swine challenge exposed with serovars 4, 6, 7, 9, 15, 16, or N did not have clinical signs of acute swine erysipelas. Nonvaccinated control swine developed localized lesions at the site of intradermal challenge inoculation.

Correlation between adherence of Erysipelothrix rhusiopathiae strains of serovar 1a to tissue culture cells originated from porcine kidney and their pathogenicity in mice and swine

Adherence of four virulent and four avirulent strains of Erysipelothrix rhusiopathiae, serovar 1a, to porcine kidney cell lines, PK-15 and ESK cells, was examined in an in vitro system. The virulent strains adhered well to the cells (range of means, 9.95 +/- 0.87-36.01 +/- 1.10 per cell). In contrast, the avirulent strains showed negligible adherence to the cells (range of means, 0.11 +/- 0.04-1.41 +/- 0.13 per cell). Pretreatment of bacteria with heat, trypsin, or antiserum resulted in a marked decrease in adherence. Scanning electron microscopic examination revealed that the bacteria attached directly to the microvilli of cells.

Cross protection in mice and swine immunized with live erysipelas vaccine to challenge exposure with strains of Erysipelothrix rhusiopathiae of various serotypes

Mice and swine immunized subcutaneously with live vaccine prepared from acriflavine-fast attenuated Erysipelothrix rhusiopathiae, strain Koganei (serotype 2), were challenge exposed to virulent strains of E rhusiopathiae of various serotypes. Vaccinated mice did not die after challenge exposure to serotypes 1a, 1b, 2, 3, 5, 6, 7, 8, 9, 11, 12, 15, 16, 18, 19, 21, or N, but 20% to 30% mortality occurred in vaccinated mice challenge exposed to serotypes 10, 14, 20, or 22. Nonvaccinated control mice died after challenge exposure to all serotypes tested. Vaccinated swine challenge exposed to strain 14B (serotype 9) or strain 2179 (serotype 10) developed localized urticarial lesions at the site of intradermal exposure. Vaccinated swine challenge exposed to serotypes 1a, 1b, 2, 5, 8, 11, 12, 18, 19, or 21 did not have clinical signs of acute erysipelas. Nonvaccinated control swine developed acute generalized erysipelas or localized lesions at the site of intradermal exposure.

Susceptibility of vaccinated swine and mice to generalized infection with specific serotypes of Erysipelothrix rhusiopathiae

Swine were vaccinated with adsorbate bacterin made from Erysipelothrix rhusiopathiae of serotype 2 and were subsequently allotted to 4 exposure groups, each of which was exposed to 1 of the strains of E rhusiopathiae of serotypes 1, 2, 9, or 10. Mice were vaccinated with the same bacterin and were subsequently allotted to 60 exposure groups which were exposed to 60 strains of E rhusiopathiae, comprising 10 strains each of serotypes 1, 2, 4, 9, 10, and 11. Response to challenge of immunity in swine was determined by the presence of clinical signs of acute generalized erysipelas; response in mice was determined by the quantal (live-dead) method. Vaccinated swine were as susceptible to the strain of serotype 10 as were nonvaccinated control swine, whereas vaccinated swine were immune and control swine were susceptible to the strains of serotypes 1 and 2. The strain of serotype 9 was not sufficiently virulent to induce acute generalized erysipelas, even in control swine. Arthritis was not prevented by vaccination, but its frequency and severity were less in vaccinated swine exposed to strains of serotype 1 or 2 than in those exposed to strains of serotype 9 or 10. Vaccinated mice were significantly (P less than 0.05) more susceptible to the strains of serotype 10 than to those of any other serotype tested.

[Erysipeloid on the islands of the Ohhotsk Sea. 2. Landscape types of the natural foci of erysipeloid]

Cases of skin (skin-artericular) form of erysipeloid were recorded in the islands of the Sea of Okhotsk. The natural foci of the causative agent of this infection were polyhostal and polyvectoral in character. The causative agent of erysipeloid exists among the animals habitating on land and sea. Mass species of animals characteristic of the island landscape served as the sources of infection. Their four landscape types (mountaineous-taiga, of sea coast and rocks, anthropurgic settlement, and of water bodies--salt and freshwater) were preliminarily distinguished by the combination of biocenological, epidemiological, and epizootological peculiarities of natural erysipeloid foci.