Robert L. Cole scite author profile

Microbial pathogens must evade the human immune system to survive, disseminate and cause disease. By proteome analysis of the bacterium Group A Streptococcus (GAS), we identified a secreted protein with homology to the alpha-subunit of Mac-1, a leukocyte beta2 integrin required for innate immunity to invading microbes. The GAS Mac-1-like protein (Mac) was secreted by most pathogenic strains, produced in log-phase and controlled by the covR-covS two-component gene regulatory system, which also regulates transcription of other GAS virulence factors. Patients with GAS infection had titers of antibody specific to Mac that correlated with the course of disease, demonstrating that Mac was produced in vivo. Mac bound to CD16 (FcgammaRIIIB) on the surface of human polymorphonuclear leukocytes and inhibited opsonophagocytosis and production of reactive oxygen species, which resulted in significantly decreased pathogen killing. Thus, by mimicking a host-cell receptor required for an innate immune response, the GAS Mac protein inhibits professional phagocyte function by a novel strategy that enhances pathogen survival, establishment of infection and dissemination.

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In Vitro Serial Passage of Staphylococcus aureus : Changes in Physiology, Virulence Factor Production, and agr Nucleotide Sequence

Somerville

et al. 2002

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Recently, we observed that Staphylococcus aureus strains newly isolated from patients had twofold-higher aconitase activity than a strain passaged extensively in vitro, leading us to hypothesize that aconitase specific activity decreases over time during in vitro passage. To test this hypothesis, a strain recovered from a patient with toxic shock syndrome was serially passaged for 6 weeks, and the aconitase activity was measured. Aconitase specific activity decreased 38% (P < 0.001) by the sixth week in culture. During serial passage, S. aureus existed as a heterogeneous population with two colony types that had pronounced (wild type) or negligible zones of beta-hemolytic activity. The cell density-sensing accessory gene regulatory (agr) system regulates beta-hemolytic activity. Surprisingly, the percentage of colonies with a wild-type beta-hemolytic phenotype correlated strongly with aconitase specific activity ( ‫؍‬ 0.96), suggesting a common cause of the decreased aconitase specific activity and the variation in percentage of beta-hemolytic colonies. The loss of the beta-hemolytic phenotype also coincided with the occurrence of mutations in the agrC coding region or the intergenic region between agrC and agrA in the derivative strains. Our results demonstrate that in vitro growth is sufficient to result in mutations within the agr operon. Additionally, our results demonstrate that S. aureus undergoes significant phenotypic and genotypic changes during serial passage and suggest that vigilance should be used when extrapolating data obtained from the study of high-passage strains.The ability of Staphylococcus aureus to evade the host immune response and cause disease is due to an extensive repertoire of known and putative virulence factors, including four hemolysins, two lipases, several proteases, exotoxins, and enterotoxins. The production of many virulence factors is regulated by the accessory gene regulatory (agr) operon (22,27) and several other global regulatory loci. The agr locus consists of two divergently transcribed mRNAs designated RNA II and RNA III (19). RNA II encodes a two-component regulatory system (AgrA and AgrC) that senses the level of cyclic thiolactone peptides generated from agrB and agrD, also encoded by RNA II (15). RNA III is an RNA effector molecule that reciprocally regulates the transcription of cell-associated adherence factors and secreted proteins (25). RNA III also regulates the translation of alpha-toxin mRNA (25). Transcription of the agr operon is autoregulated by agrA in a cell densitydependent manner and by at least two other global regulatory proteins: the staphylococcal accessory regulator (SarA) (6) and ArlR, the regulatory moiety of the ArlS-ArlR two-component regulatory system (10). Recently, we determined that aconitase affects the synthesis of several S. aureus virulence factors and the expression of the global gene regulators RNA III and sarA (G. A. Somerville, unpublished data). Aconitase (citrate [isocitrate] hydrolyase, EC 4.2.1.3) is a citric acid cycle enzyme ...

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Genome Diversification in Staphylococcus aureus : Molecular Evolution of a Highly Variable Chromosomal Region Encoding the Staphylococcal Exotoxin-Like Family of Proteins

et al. 2003

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Recent genomic studies have revealed extensive variation in natural populations of many pathogenic bacteria. However, the evolutionary processes which contribute to much of this variation remain unclear. A previous whole-genome DNA microarray study identified variation at a large chromosomal region (RD13) of Staphylococcus aureus which encodes a family of proteins with homology to staphylococcal and streptococcal superantigens, designated staphylococcal exotoxin-like (SET) proteins. In the present study, RD13 was found in all 63 S. aureus isolates of divergent clonal, geographic, and disease origins but contained a high level of variation in gene content in different strains. A central variable region which contained from 6 to 10 different set genes, depending on the strain, was identified, and DNA sequence analysis suggests that horizontal gene transfer and recombination have contributed to the diversification of RD13. Phylogenetic analysis based on the RD13 DNA sequence of 18 strains suggested that loss of various set genes has occurred independently several times, in separate lineages of pathogenic S. aureus, providing a model to explain the molecular variation of RD13 in extant strains. In spite of multiple episodes of set deletion, analysis of the ratio of silent substitutions in set genes to amino acid replacements in their products suggests that purifying selection (selective constraint) is acting to maintain SET function. Further, concurrent transcription in vitro of six of the seven set genes in strain COL was detected, indicating that the expression of set genes has been maintained in contemporary strains, and Western immunoblot analysis indicated that multiple SET proteins are expressed during the course of human infections. Overall, we have shown that the chromosomal region RD13 has diversified extensively through episodes of gene deletion and recombination. The coexpression of many set genes and the production of multiple SET proteins during human infection suggests an important role in host-pathogen interactions.

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Robert L. Cole

Evasion of human innate and acquired immunity by a bacterial homolog of CD11b that inhibits opsonophagocytosis

In Vitro Serial Passage of Staphylococcus aureus : Changes in Physiology, Virulence Factor Production, and agr Nucleotide Sequence

Genome Diversification in Staphylococcus aureus : Molecular Evolution of a Highly Variable Chromosomal Region Encoding the Staphylococcal Exotoxin-Like Family of Proteins

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