Инфекция и иммунитет (Dec 2015)

СAPSULAR ANTIGEN OF YERSINIA PESTIS

  • L. A. Kadnikova,
  • P. K. Kopylov,
  • S. V. Dentovskaya,
  • A. P. Anisimov

DOI
https://doi.org/10.15789/2220-7619-2015-3-201-218
Journal volume & issue
Vol. 5, no. 3
pp. 201 – 218

Abstract

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Plague is a zoonosis caused by gram-negative bacteria Yersinia pestis, which, as a rule, is transmitted to humans from septicemic rodents by the bites of infected fleas. This microbe killed more people than all of the wars in the human history. Y. pestis circulation in the natural plague foci is ensured by the whole number of pathogenicity factors with differing functional orientation. This review is devoted to one of them, Y. pestis capsular antigen (F1 or Caf1). The history of its discovery and studying of its genetic control, biosynthesis, isolation and purification, and physicochemical properties are reviewed. Its roles in plague pathogenesis and its application as a main component of plague vaccines are also discussed. Y. pestis capsule under light microscopy is visually amorphous, while high-resolution electron microscopy displays the structure formed from separate fimbria-like cords up to 200 nm long, diverging from the bacterial surface in different directions. At 37°C Y. pestis produce 800–1000 times more capsular antigen than at 28°C. Genes coding for 17.6-kD Caf1 protein, which contains 170 amino acids, are located in caf1 operon of pFra plasmid. Analysis of caf1 operon nucleotide sequence testified its close phylogenetic relationship with the gene clusters coding for pilus adhesins that were secreted with the help of chaperone/usher systems in enterobacteria including six additional adhesins in Y. pestis. Y. pestis multiplication within macrophages is the obligatory stage of plague pathogenesis, and the plague pathogen virulence correlates not with resistance to phagocyte ingesting but with bacterial ability to survive and multiply within phagolysosomes of phagocytes due to neutralization of antibacterial functions of eukaryotic cells. The capsule formed out of the Caf1 aggregates protects Y. pestis from ingestion by naïve host’s phagocytes and prevents from initiation of the alternative pathway of the complement system. Molecular usher Caf1A responsible for capsular antigen anchoring on the surface of bacterial cell has a high affinity to human interleukin 1β. Caf1 can compete with interleukins 1α, 1β, and 1ra in binding to receptors on lymphoid cells preventing development of adequate immune response. Immunodiagnosis of plague is based on detection of Caf1 or anti-Caf1 antibodies since this Y. pestis antigen is species specific. Covering bacterial surfaces capsular antigen is also the paramount component of all modern plague vaccines. Its leading role in induction of intense immunity in mice, rats, monkeys, and men was shown clearly. However, non-capsulated (Caf1–) variants of Y. pestis keeping their virulence at the level of the wild-type strains might be selected and accumulated in immune animals. This indicates inadmissibility of application of monoantigen plague vaccines and necessity for design of immunoprophylactic preparations aimed at two or three molecular targets.

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