A Behrens scite author profile

The protein and antigen profiles of 11 isolates of Mycoplasma bovis were compared by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and immunoblot analysis of whole organisms. The isolates examined included the type strain PG45 and 10 other filter-cloned strains or purified isolates both from animals without clinical signs and from clinical cases of bovine mastitis, arthritis, or pneumonia. While the overall protein patterns visualized by silver staining were very similar, marked differences in the antigen banding profiles were detected by rabbit antiserum prepared against whole organisms from one of the strains analyzed. This antigenic heterogeneity was shown to be independent of the geographical origin, the type of clinical disease, and the site of isolation and was also observed among serial isolates from a single animal. Antigen profiles were further monitored throughout sequentially subcloned populations of the PG45 strain. This clonal analysis revealed a high-frequency variation in the expression levels of several prominent antigens. All of these variable antigens were defined by detergent-phase fractionation with Triton X-114 as amphiphilic integral membrane proteins. A subset of different-sized membrane proteins was identified by a monoclonal antibody raised against a PG45 subclone expressing a 63- and a 46-kDa variant antigen within that set. The selective susceptibility of these proteins to trypsin treatment of intact organisms and their ability to bind the monoclonal antibody in colony immunoblots demonstrated that they were exposed on the cell surface. In addition, their preferential recognition by serum antibodies from individual cattle with naturally induced M. bovis mastitis or arthritis confirmed that they were major immunogens of this organism. These studies establish that the apparent antigenic heterogeneity among M. bovis isolates reported here does not represent stable phenotypic strain differences generated from accumulated mutational events but reflects distinct expression patterns of diverse, highly variable membrane surface proteins.

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A family of phase- and size-variant membrane surface lipoprotein antigens (Vsps) of Mycoplasma bovis

Behrens

et al. 1994

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A set of strain-and size-variant highly immunogenic membrane surface protein antigens of Mycoplasma bovis, which has been identified by a monoclonal antibody, is shown in this report to make up a family of antigenically and structurally related lipid-modified proteins, designated Vsps (variable surface proteins). By systematic analysis of several isogenic clonal lineages of the type strain PG45, three members of this family have been identified, VspA, VspB, and VspC, each of which was shown to undergo independent high-frequency changes in size as well as noncoordinate phase variation between ON and OFF expression states. The monoclonal antibody-defined epitope common to VspA, VspB, and VspC was accessible on the cell surface in most, but not all, of the clonal populations analyzed and was present on a C-terminal limit tryptic fragment of each Vsp variant that was released from the membrane surface. VspA and VspC were distinguished from VspB by their selective detection with colloidal gold and by their distinctive reaction with a polyclonal antibody against M. bovis D490. VspA, VspB, and VspC were further distinguishable from one another by their characteristic patterns of degradation at carboxypeptidase Y pause sites. While these Vsp-specific structural fingerprints with an irregular periodic spacing were constant for similarly sized variants of a defined Vsp product, they showed distinct differences among variants differing in size. This variability included gain or loss of individual bands within distinct subsets of bands, as well as shifts of the entire banding patterns upor downwards, indicating that insertions or deletions underlying Vsp size variation can occur at various locations either within the C-terminal domain or within other regions of these proteins. This was similarly confirmed by comparative epitope mapping analysis of tryptic cleavage products generated from different Vsp size variants. The Vsp family of M. bovis described in this study represents a newly discovered system of surface antigenic variation in mycoplasmas displaying features which closely resemble but are also different from the characteristics reported for the Vlp (variable lipoprotein) system of M. hyorhinis. The isogenic lineages established here provide key populations for subsequent analysis of corresponding genes to further elucidate Vsp structure and variation, which may have important relevance for a better understanding of the pathogenicity of this agent.

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A newly identified immunodominant membrane protein (pMB67) involved in Mycoplasma bovis surface antigenic variation

Behrens

Poumarat²,

Grand

et al. 1996

Microbiology

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Immunoelectron microscopic localization of variable proteins on the surface of Mycoplasma bovis

Behrens

Heller²,

Rosenbusch³

et al. 1996

Microbiology

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The ultrastructural distribution and immunological accessibility of the variable surface proteins VspA, VspB, VspC and VspD were determined by immunoelectron microscopy on the surface of negatively stained cells of Mycoplasma bovis PG45 and 18 subclones, expressing either one or two of the Vsps. The variable proteins VspA, VspB, VspC and VspD, recognized by two monoclonal antibodies (mAb 1E5 and mAb 87-2) and visualized by goat-anti-murine-lgM labelled with gold particles, showed identical distribution patterns on the surfaces of the cells of all M. bovis clones investigated. Gold particles were distributed over the whole cell surface, arranged in clusters. The cell form seemed not to have an influence on the decoration pattern. Gold particles were also observed in irregular distributions around the cells. All clones showed unlabelled cells as well as strongly and weakly labelled cells. There were in general, however, no significant differences in the percentages of unlabelled, weakly labelled and strongly labelled cells, either between clones expressing different Vsps or between individual clones. No correlations were found between the numbers of labelled cells in immunoelectron microscopy and the numbers of labelled colonies in immunobinding assay (IBA) originating from the same broth cultures. The percentage of positive colonies in IBA was generally much higher than the percentage of positive cells in immunoelectron microscopy. The results show that the cells of the M. bovis clones are not identical, but differ in their surface antigens, and reveal the high variable potential of this species.

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A Behrens

Antigen heterogeneity among isolates of Mycoplasma bovis is generated by high-frequency variation of diverse membrane surface proteins

A family of phase- and size-variant membrane surface lipoprotein antigens (Vsps) of Mycoplasma bovis

A newly identified immunodominant membrane protein (pMB67) involved in Mycoplasma bovis surface antigenic variation

Immunoelectron microscopic localization of variable proteins on the surface of Mycoplasma bovis

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