Antibodies to a Common Outer Envelope Antigen of Treponema hyodysenteriae with Antibacterial Activity

Sellwood, R.; Kent, Karen; Burrows, M. R.; Lysons, R. J.; Bland, A. P.

doi:10.1099/00221287-135-8-2249

Microbiology

1989

DOI: 10.1099/00221287-135-8-2249

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Antibodies to a Common Outer Envelope Antigen of Treponema hyodysenteriae with Antibacterial Activity

R. Sellwood¹,

Karen Kent²,

M. R. Burrows³

et al.

Abstract: Outer envelopes of Treponema hyodysenteriae strains PI 8A and VS1 were prepared and characterized by SDS-PAGE. In Western blot analysis of eleven strains of T. hyodysenteriae and two intestinal non-pathogenic spirochaetes, polyclonal antiserum raised to the outer envelopes of strain P18A contained antibodies primarily to two polypeptides. A 45 kDa polypeptide was present in only two strains of T. hyodysenteriae, P 18A and MC52/80, whereas another antigen of 16 kDa was common to all eleven strains of T. hyodyse… Show more

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Cited by 22 publications

(49 citation statements)

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“…pallidum; divergent results have been obtained in other studies using selective detergent solubilization (32,39). Our results clearly do not support the suggestion that the OM of T. hyodysenteriae resembles that of T. pallidum subspecies.…”

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confidence: 64%

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Analysis of outer membrane ultrastructure of pathogenic Treponema and Borrelia species by freeze-fracture electron microscopy

et al. 1991

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We analyzed the outer membrane (OM) ultrastructure of four pathogenic members of the family Spirochaetaceae by freeze fracture. The OM of Treponema pallidum subsp. pertenue contained a low intramembranous particle concentration, indicating that it contains few OM transmembrane proteins. The concave OM fracture faces of Treponema hyodysenteriae and Borrelia burgdorferi contained dense populations of particles, typical of gram-negative organisms. A relatively low concentration of particles which were evenly divided between a small and a large species was present in the concave OM fracture face of Borrelia hermsii; the convex OM fracture face contained only small particles. As for gram-negative bacteria, the convex OM fracture face particle concentrations of these pathogens were low. These spirochetes cleaved preferentially within the OM, in contrast to typical gram-negative bacteria, which tend to fracture within the inner membrane. The OM ultrastructure of T. palldum subsp. pertenue provides an explanation for the lack of antigenicity of the treponemal surface and may reflect a mechanism by which this pathogen evades the host immune response.Treponema pallidum subsp. pertenue, Treponema hyodysenteriae, Borrelia burgdorferi, and Borrelia hermsii are the etiologic agents of yaws, swine dysentery, Lyme borreliosis, and relapsing fever, respectively. Although the diseases caused by these spirochetes (family Spirochaetaceae) have been well described, research on the biology of these pathogens has been hampered by several factors. Rich, serum-containing media are required to cultivate the agents of Lyme borreliosis, relapsing fever, and swine dysentery; none of the treponemes responsible for disease in humans can be cultivated continuously in vitro. No systems for introducing DNA into members of the family Spirochaetaceae have been developed. The spirochetal outer membrane (OM) tends to be easily damaged by mild physical and chemical manipulations (3,12,14,15,27,28,32). Work with spirochetes such as Treponema pallidum subsp. pallidum, the etiologic agent of syphilis, has indicated that this fragility has not been adequately addressed by the techniques used to define the OM constituents of gram-negative bacteria (12, 26-28, 30, 38).Freeze-fracture electron microscopy has allowed examination of the ultrastructure of the OM of T. pallidum subsp. pallidum (30,38). The OM of this spirochete was shown to be unusual in that it contains a low intramembranous particle (IMP) concentration in both the concave and convex fracture faces, indicating that the OM of T. pallidum subsp. pallidum contains few transmembrane proteins (30,38). In this study, we used the techniques of freeze-fracture and freeze-etch electron microscopy to examine the OM of T. pallidum subsp. pertenue provided by Paul H. Hardy, Jr., The Johns Hopkins University School of Medicine, Baltimore, Md. The strain was cultivated by passage in New Zealand White male rabbits and harvested as previously described for T. pallidum subsp. pallidum (23). T. hyodysenteriae ...

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confidence: 64%

“…No systems for introducing DNA into members of the family Spirochaetaceae have been developed. The spirochetal outer membrane (OM) tends to be easily damaged by mild physical and chemical manipulations (3,12,14,15,27,28,32). Work with spirochetes such as Treponema pallidum subsp.…”

mentioning

confidence: 99%

Analysis of outer membrane ultrastructure of pathogenic Treponema and Borrelia species by freeze-fracture electron microscopy

et al. 1991

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“…A serum from a gnotobiotic pig infected with B.(S.) hyodysenteriae strain P18A had antibodies to the 16-kDa antigen alone and also possessed agglutinating and growth-inhibitory activities [13]. These results demonstrated that the antibodies may contribute to an antibacterial mechanism in vivo which could lead to protection of the pig from swine dysentery.…”

mentioning

confidence: 70%

“…The antibody in pig which was reacting with 16-kDa protein in B.(S.) hyodysenteriae was confirmed [7,13]. A serum from a gnotobiotic pig infected with B.(S.)…”

mentioning

confidence: 99%

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Presence of 22 and 17-kDa Proteins Reacting with Sera in Mice Experimentally Infected with Brachyspira (Serpulina) hyodysenteriae.

Sakurai

Adachi

1998

The Journal of Veterinary Medical Science

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ABSTRACT. The antibodies to B. (S.)hyodysenteriae in experimentally infected mice were detected by microscopic agglutination test (MAT) and enzyme-linked immunosorbent assay (ELISA). The reactions in MAT were serotype specific while those in ELISA were common to both strains. A further investigation with immunoblotting technique demonstrated that 22-and 17-kDa proteins reacted strongly with the sera. The proteins in ATCC 27164 strain strongly reacted with the serum from ATCC 31212 strain-infected mouse and vice versa. These proteins were sensitive to proteinase K. A.). Each suspension of ATCC 27164 and 31212 strains was adjusted at 4.05 × 10 7 cells/ml and 7.17 × 10 7 cells/ml, respectively, and 0.5 ml of the suspension was inoculated intragastrically into the mice. In this experiment, SP-treated mice were allocated into ATCC 27164 (n=4) and 31212 (n=5) infected groups while SP-nontreated mice were allocated into ATCC 31212 infected group (n=4) and only TSB-infected group (n=5). Reisolation of the spirochetes from the feces on days 7 and 14 after inoculation and from the cecal contents on day 21 after the inoculation was carried out using blood agar containing 400 µg/ml of SP [14]. All mice were bled on day 21 after the inoculation. The microscopic agglutination test (MAT) was carried out as previously described [9]. The results are presented as the reciprocal of the maximum dilution of the serum giving a 50% microscopic agglutination of the organism. An enzyme-linked immunosorbent assay (ELISA) was carried out essentially as previously described [8]. The preparation of the antigen for ELISA was carried out as previously described [1]. After harvest, the cells were suspended in 0.01 M phosphate buffer (pH 7.2), washed three times by centrifugation at 10,000 × g for 20 min and adjusted to 0.65 at a wave length of 625 nm. The cell suspension was sonicated for 10 min (100 W, 10 kHz) by a sonicator UR-200P (TOMY Seiko Co., Ltd., Tokyo, Japan) and centrifuged at 2,000 × g for 30 min. The supernatant was used as the antigen for ELISA. Alkaline phosphatase Brachyspira (Serpulina) hyodysenteriae is the causative agent of swine dysentery (SD) [3,17]. We proposed the unification of the genera Serpulina [15] and Brachyspira [4], and the use of genus Brachyspira [12]. Mice have been used for the experimental infectious model of SD [5]. However, there have been no reports on the antibodies in mice infected with B.(S) hyodysenteriae. Boyden et al. [2] cloned genes that code for B.(S.) hyodysenteriae endoflagella antigens into E. coli with the purpose of identifying protective antigens for vaccine development and confirmed the protective activity of the cloned endoflagella antigen using CF1 mice. However, the antibacterial activity of hyperimmune pig serum raised against axial filaments consisting of 37-, 34-, and 32-kDa proteins could not be demonstrated [10]. On the other hand, pigs that have been infected with virulent strains of B.(S.) hyodysenteriae and recover from the disease have been shown to be immune to further inf...

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Serpulina hyodysenteriae challenge of fattening pigs vaccinated with an adjuvanted bivalent bacterin against swine dysentery

Diego

Lanza

Carvajal

et al. 1995

Vaccine

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Antibodies to a Common Outer Envelope Antigen of Treponema hyodysenteriae with Antibacterial Activity

Cited by 22 publications

References 9 publications

Analysis of outer membrane ultrastructure of pathogenic Treponema and Borrelia species by freeze-fracture electron microscopy

Analysis of outer membrane ultrastructure of pathogenic Treponema and Borrelia species by freeze-fracture electron microscopy

Presence of 22 and 17-kDa Proteins Reacting with Sera in Mice Experimentally Infected with Brachyspira (Serpulina) hyodysenteriae.

Serpulina hyodysenteriae challenge of fattening pigs vaccinated with an adjuvanted bivalent bacterin against swine dysentery

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