Gene families encoding phase- and size-variable surface lipoproteins of Mycoplasma hyorhinis

A prototype family of seven genes encoding the variable surface lipoproteins (Vlps) of Mycoplasma hyorhinis is characterized in the pathogenic SK76 strain, using long-range PCR to amplify and analyze the single chromosomal region containing expressed genes vlpA to -G, each of which is subject to phase and size variation. Smaller families of vlp genes in subclones of SK76 or in another strain of M. hyorhinis, GDL, can be attributed to deletions of specific vlp genes from the prototype array described here. Two genes, vlpA and the newly revealed vlpG, contain repeat motifs in their 3' coding regions that differ from the short tandem repeats in other vlp genes yet retain structural features common to all vlp gene products. SK76 and GDL vlp gene families are similarly organized and show sequence similarity between corresponding individual vlp genes. In light of the extensive potential for diversity within the vlp gene system, such conservation provides a provisional basis to hypothesize that vlp genes may exist in specific arrays that endow selected functions while retaining common structural features required during phase-variable expression of this set of gene products.     

The Vlp system of Mycoplasma hyorhinis: combinatorial expression of distinct size variant lipoproteins generating high-frequency surface antigenic variation.

Isogenic populations of Mycoplasma hyorhinis undergo in vitro high-frequency phase variation in the expression of surface lipoproteins; these products also vary markedly in size through changes in periodic protein structure (R. Rosengarten and K.S. Wise, Science 247:315-318, 1990). In this report, we rigorously define three distinct translation products comprising the Vlp (variable lipoprotein) system of M. hyorhinis SK76 and establish parameters of Vlp structural diversity and expression that distinguish the Vlp system from previously described examples of antigenic variation. VlpA, VlpB, and VlpC are prominent amphiphilic membrane lipoproteins characterized by detergent-phase fractionation and metabolic labeling with [35S]cysteine and [3H]palmitate. VlpA is distinguished from VlpB and VlpC by its selective labeling with [35S]methionine; VlpB and VlpC are distinguished by specific epitopes defined by surface-binding monoclonal antibodies (MAbs); a third MAb defines a surface epitope shared by VlpB and VlpC (but absent from VlpA). Each Vlp displays 12 to 30 spontaneous size variant forms comprising a periodic ladder that could also be generated by partial trypsin digestion of individual Vlp size variants. Different periodic intervals within VlpB and VlpC further distinguish these two products structurally. Mycoplasma colony opacity correlates inversely with Vlp size. Each Vlp undergoes independent, oscillating high-frequency phase variation in isogenic populations and can be expressed individually or concomitantly with other Vlps in a noncoordinate manner. All seven possible combinations of these three products were observed; however, no variants were found that lacked a Vlp. High-frequency size variation of each Vlp superimposed on combinatorial diversity in Vlp expression yields greater than 10(4) possible structurally distinct Vlp mosaics, of which 104 were documented along with 24 of 42 possible transitions among the seven Vlp combinations. In addition to these features, VlpA, VlpB, and VlpC were specifically recognized by serum antibodies from swine with experimental M. hyorhinis SK76-induced arthritis, indicating expression and immunogenicity of Vlps in the natural host. The structure and variation of Vlps and their known involvement in MAb-mediated modulation of mycoplasma-infected host cell properties and mycoplasma killing are discussed in relation to the surface architecture and adaptive potential of the wall-less mycoplasmas.     

Phasevarion mediated epigenetic gene regulation in Helicobacter pylori

Many host-adapted bacterial pathogens contain DNA methyltransferases (mod genes) that are subject to phase-variable expression (high-frequency reversible ON/OFF switching of gene expression). In Haemophilus influenzae and pathogenic Neisseria, the random switching of the modA gene, associated with a phase-variable type III restriction modification (R-M) system, controls expression of a phase-variable regulon of genes (a "phasevarion"), via differential methylation of the genome in the modA ON and OFF states. Phase-variable type III R-M systems are also found in Helicobacter pylori, suggesting that phasevarions may also exist in this key human pathogen. Phylogenetic studies on the phase-variable type III modH gene revealed that there are 17 distinct alleles in H. pylori, which differ only in their DNA recognition domain. One of the most commonly found alleles was modH5 (16% of isolates). Microarray analysis comparing the wild-type P12modH5 ON strain to a P12ΔmodH5 mutant revealed that six genes were either up- or down-regulated, and some were virulence-associated. These included flaA, which encodes a flagella protein important in motility and hopG, an outer membrane protein essential for colonization and associated with gastric cancer. This study provides the first evidence of this epigenetic mechanism of gene expression in H. pylori. Characterisation of H. pylori modH phasevarions to define stable immunological targets will be essential for vaccine development and may also contribute to understanding H. pylori pathogenesis.