Immunologic and genetic analyses of VmpA of a neurotropic strain of Borrelia turicatae

Cadavid, Diego; Pennington, Pamela M.; Kerentseva, Tatiana A.; Bergström, Sven; Barbour, Alan G.

doi:10.1128/iai.65.8.3352-3360.1997

Cited by 79 publications

(76 citation statements)

References 41 publications

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“…Recombinant OspA is the basis of an effective human vaccine against B. burgdorferi infection (Steere et al, 1998), but among patients with Lyme disease immunological reactivity to OspA is also associated with a higher risk of an autoimmune-type arthritis (Kalish et al, 1993). The relapsing fever Borrelia spp., such as B. hermsii and B. turicatae, have on their surface Vsp and Vlp lipoproteins, which are involved with antigenic variation and are associated with different tissue localizations during mammalian infections (Barbour et al, 1982;Cadavid et al, 1993;Cadavid et al, 1997;Pennington et al, 1997;Schwan and Hinnebusch, 1998;Pennington et al, 1999). The outer membrane of spirochaetes also includes integral membrane proteins, such as the P66 protein (Probert et al, 1995;Skare et al, 1997;Bunikis et al, 1998).…”

Section: Introductionmentioning

confidence: 99%

Non‐heritable change of a spirochaete's phenotype by decoration of the cell surface with exogenous lipoproteins

Bunikis¹,

Mirian²,

Bunikiene³

et al. 2001

Molecular Microbiology

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Genetic transformation of Borrelia spp. is limited in development and has found application in only one species. For a non‐genetic approach for manipulating the phenotype of these spirochaetes, we determined whether exogenous recombinant lipoproteins would incorporate in the cell's outer membrane. Using unlabelled or 125I‐labelled Osp proteins, Osp‐specific monoclonal antibodies, proteinase K and formaldehyde as reagents, we found that decoration of spirochaetes had the following characteristics. (i) Purified recombinant OspA or OspD lipoproteins associated with Borrelia burgdorferi and B. hermsii cells that lacked abundant lipoproteins of their own. (ii) This decoration of the cells with exogenous OspA did not affect cell's viability. (iii) The decoration was concentration and temperature dependent and stable for at least 24 h. (iv) Like native OspA, the recombinant OspA decorating the cells was accessible to antibodies and proteases and could be cross‐linked to the integral outer membrane protein, P66. (v) Decoration of viable B. burgdorferi and B. hermsii with OspA rendered the cells susceptible to killing by OspA‐specific antiserum. Such non‐genetic alteration of the surface of a bacterium may be used to study functions and properties of lipoproteins in situ.

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Section: Introductionmentioning

confidence: 99%

Non‐heritable change of a spirochaete's phenotype by decoration of the cell surface with exogenous lipoproteins

Bunikis¹,

Mirian²,

Bunikiene³

et al. 2001

Molecular Microbiology

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“…The varying antigens of relapsing fever Borrelia spp. are lipoproteins of two types: variable small proteins (Vsps) of about 23 kDa and variable large proteins (Vlps) of about 38 kDa (Barbour et al, 1982;Burman et al, 1990;Carter et al, 1994;Cadavid et al, 1997). Each Vsp or Vlp is encoded by a different vsp or vlp gene.…”

Section: Introductionmentioning

confidence: 99%

“…The only detectable difference between serotypes A and B by one-dimensional protein electrophoresis was whether they produced VspA or VspB on their surfaces (Cadavid et al, 1994). These two proteins are antigenically distinct and differ at 40% of their residues, the greatest diversity being in their C-terminal halves (Cadavid et al, 1997;Pennington et al, 1999).…”

Section: Introductionmentioning

confidence: 99%

Extensive interplasmidic duplications change the virulence phenotype of the relapsing fever agent Borrelia turicatae

Penningon

Cadavid

Bunikis

et al. 1999

Molecular Microbiology

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SummaryThe relapsing fever agent Borrelia turicatae has two antigenically distinct serotypes, A and B, which differ in their variable small proteins (Vsps) and in their degree of virulence and neurotropism in mice. Each Vsp gene (vspA or vspB ) had an expression-linked copy that was unique to the serotype expressing it. This was located on one linear plasmid, which was defined by the upstream sequence. The archived copies of vspA and vspB were each located on different linear plasmids that were the same in both serotypes. In this feature, the mechanism of antigenic variation is similar to that of another relapsing fever agent, B. hermsii. However, in other features, the mechanisms of the two organisms differ. The expressed and archived loci for vspA and vspB of B. turicatae were near the centre of linear plasmids instead of near the telomeres. The vspA and vspB expression loci were duplicate copies of their respective silent loci: from the vsp itself to at least 13-14 kb downstream. Despite the extensive interplasmidic duplications and the internal position of the expression locus, the only detectable difference between serotypes A and B was in whether they expressed VspA or VspB.

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“…However, both Borrelia species display antigenic variation that allows it to escape host immune response. This mechanism has been extensively studied, and several vmp genes have been identified and have been divided into two families: vlp (variable large protein of average molecular weight, 33 36 kDa) and vsp (variable small protein, approximate molecular weight of 22 kDa) genes, on the basis of their molecular sizes (8,20).The genome of both relapsing fever and Lyme disease borreliae is composed of one linear chromosome of about one megabase and several linear and circular plasmid molecules (2,4,21,26). Some of these plasmids carry genes for variable major protein (Vmp) in relapsing fever borreliae and the outer surface membrane protein (Osp) in Lyme disease spirochetes (3,9).…”

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confidence: 99%

mentioning

confidence: 99%

The 44‐kb Linear Plasmid Molecule in the Relapsing Fever Agent Borrelia duttonii Strain Ly Serve as a Preservation of vmp Genes

Tabuchi

Mitani

Seino

et al. 2002

Microbiology and Immunology

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Relapsing fever is a disease caused by a spirochete that belongs to the genus Borrelia. The borreliae are transmitted from one vertebrate host to another by the bite of Ornithodoros ticks (Argasidae) or louse, Pediculus humanus (5). These organisms are divided into two groups old-world and new-world relapsing fever borreliae based on their distribution areas. Borrelia hermsii (one of the new-world group) causes an illness characterized by periods of fever and spirochetemia, separated by febrile intervals without evidence of the organism in the blood (3,6). This phenomenon has been described to confer the ability to avoid host immune response, and is a multiphasic antigenic variation of surfaceexposed outer membrane lipoprotein. In contrast, Borrelia crocidurae (one of the old-world relapsing fever Borrelia) shows different behavior from that of B. hermsii. During infection in mice, prolonged spirochetemia results in an erythrocyte rosette formation (7). However, both Borrelia species display antigenic variation that allows it to escape host immune response. This mechanism has been extensively studied, and several vmp genes have been identified and have been divided into two families: vlp (variable large protein of average molecular weight, 33 36 kDa) and vsp (variable small protein, approximate molecular weight of 22 kDa) genes, on the basis of their molecular sizes (8,20).The genome of both relapsing fever and Lyme disease borreliae is composed of one linear chromosome of about one megabase and several linear and circular plasmid molecules (2,4,21,26). Some of these plasmids carry genes for variable major protein (Vmp) in relapsing fever borreliae and the outer surface membrane protein (Osp) in Lyme disease spirochetes (3, 9). Several studies have recently shown that the absence of certain plasmid molecules in the borrelial cell correlates with loss of infectivity in mice (24, 29). In our previous work, the size conversion of the 44-kb plasmid in B. duttonii strain Ly caused a loss of infectivity in mice, and it was possible that gene(s) on the 44-kb plasmid molecule are important in the spirochete's escape from the host defense mechanism. It is of interest to identify the gene(s) essential for spirochete infection in mice. We therefore attempted to identify the whole nucleotide sequence

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Immunologic and genetic analyses of VmpA of a neurotropic strain of Borrelia turicatae

Cited by 79 publications

References 41 publications

Non‐heritable change of a spirochaete's phenotype by decoration of the cell surface with exogenous lipoproteins

Non‐heritable change of a spirochaete's phenotype by decoration of the cell surface with exogenous lipoproteins

Extensive interplasmidic duplications change the virulence phenotype of the relapsing fever agent Borrelia turicatae

The 44‐kb Linear Plasmid Molecule in the Relapsing Fever Agent Borrelia duttonii Strain Ly Serve as a Preservation of vmp Genes

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