Interleukin-1-inducing activity of the polysaccharide-containing antigens of the cell wall in Yersinia pestis

The induction of the synthesis of interleukin-1 (IL-1) in human monocytes under the influence of the endotoxic preparations (LPS) and Y. pestis basis somatic antigen has been experimentally studied. The results obtained in this study make it possible to come to the conclusion that the capacity of the endotoxin of Y. pestis cell wall, consisting of LPS of type R, for inducing the synthesis of IL-1 in human monocytes is not different from the corresponding capacity of Salmonella and Shigella LPS, type S. Y. pestis O-specific polysaccharide in a discrete state has considerably greater IL-1-inducing activity in comparison with other preparations used in this experimental study. Such typical changes, characteristic of the initial stage of Y. pestis infection, as a sharp rise in temperature, transitory neutropenia, significant primary suppression of the oxygen-dependent metabolism of polymorphonuclear neutrophils are probably due to the induction of the synthesis of IL-1 by the polysaccharide-containing antigen of Y. pestis cell wall (LPS, basic somatic antigen) in cells of the mononuclear phagocytizing system.     

Defective innate cell response and lymph node infiltration specify Yersinia pestis infection

Since its recent emergence from the enteropathogen Yersinia pseudotuberculosis, Y. pestis, the plague agent, has acquired an intradermal (id) route of entry and an extreme virulence. To identify pathophysiological events associated with the Y. pestis high degree of pathogenicity, we compared disease progression and evolution in mice after id inoculation of the two Yersinia species. Mortality studies showed that the id portal was not in itself sufficient to provide Y. pseudotuberculosis with the high virulence power of its descendant. Surprisingly, Y. pseudotuberculosis multiplied even more efficiently than Y. pestis in the dermis, and generated comparable histological lesions. Likewise, Y. pseudotuberculosis translocated to the draining lymph node (DLN) and similar numbers of the two bacterial species were found at 24 h post infection (pi) in this organ. However, on day 2 pi, bacterial loads were higher in Y. pestis-infected than in Y. pseudotuberculosis-infected DLNs. Clustering and multiple correspondence analyses showed that the DLN pathologies induced by the two species were statistically significantly different and identified the most discriminating elementary lesions. Y. pseudotuberculosis infection was accompanied by abscess-type polymorphonuclear cell infiltrates containing the infection, while Y. pestis-infected DLNs exhibited an altered tissue density and a vascular congestion, and were typified by an invasion of the tissue by free floating bacteria. Therefore, Y. pestis exceptional virulence is not due to its recently acquired portal of entry into the host, but is associated with a distinct ability to massively infiltrate the DLN, without inducing in this organ an organized polymorphonuclear cell reaction. These results shed light on pathophysiological processes that draw the line between a virulent and a hypervirulent pathogen.     

Virulence, viability and antibiotic sensitivity of the causative agent of plague growing on nutrient media at 28 and 37 degrees C

A comparative study of virulence, viability and antibiotic sensitivity of Y. pestis strains grown at 28 degrees C and 37 degrees C in yeast-casein medium, yeast medium with Hottinger's meat digest and yeast medium with protein hydrolysate obtained from sunflower seed groats has been made. These media have been found to be suitable for the prolonged cultivation of Y. pestis at 28 degrees C and 37 degrees C, for the determination of its sensitivity to antibiotics, as well as for the preservation of Y. pestis cultures.     

Y. pestis phage of a new serovar

Phage II, isolated from Y. pestis strain 2247 obtained from a desert focus in Central Asia, has been studied. The phage is classified with moderate phages and essentially differs from moderate phages of serovar 2. The sources of isolation, high specificity and the absence of common serological features with presently known Y. pestis phages of serovars 1 and 2 permit the classification of this phage with new serovar 3 of Y. pestis phages.     

The lytic activity of Yersinia pestis phage P 3d serovar

The lytic activity of plague phage II, serovar 3, with respect to 1,800 bacterial strains has been studied: 760 Yersinia pestis strains, 262 Y. pseudotuberculosis strains, 252 Y. enterocolitica strains, 166 Escherichia coli strains, 90 Shigella strains and 270 strains of other species. The phage has been found to lyse 81.8% of Y. pestis strains, 1 Y. pseudotuberculosis strain and 1 Y. enterocolitica strain. The representatives of other 19 bacterial species have proved to be resistant to the phage. Though having a wide range of action within Y. pestis, the phage does not lyse most of the strains of the causative agent of plague, isolated in certain natural foci. This fact offers promise for using the phage for the differentiation of Y. pestis.     

The tissue heterogeneity of mononuclear phagocyte system cells interacting with Yersinia pestis

The work deals with the determination of the heterogeneity of cells of the mononuclear phagocyte system, localized in different tissues, in their interaction with Y. pestis. The macrophage populations under study have been found to be heterogeneous in their phagocytic activity with respect to Y. pestis. The digestive activity of alveolar macrophages is considerably lower than that of macrophages localized in other tissues. Macrophages obtained from different tissue are heterogeneous also in the intensity of changes in oxygen-dependent metabolic processes during their contacts with Y. pestis. Alveolar macrophages are less active in this respect than peritoneal ones. Alveolar macrophages under study have been shown to have their own characteristic features; for this reason, the data obtained in the study of one of these populations should not be extrapolated to other populations.     

Changes in the oxygen-dependent metabolic activity of polymorphonuclear leukocytes from the peripheral blood and macrophages from the peritoneal exudate in the experimental infection of mice with the causative agent of plague

The subcutaneous infection of C57BL/6J mice and noninbred white mice with 40 LD100 of Y. pestis virulent strain has been found to produce synchronous changes in the oxygen-dependent metabolism (ODM) of peripheral blood neutrophils in the spontaneous or zymosan-, E. coli- and Y. pestis-stimulated variants of the NBT test. These changes can be divided into three phases: (I) the phase of a sharp drop in ODM activity; (II) the phase of the increase of this activity, occurring simultaneously with the penetration of Y. pestis cells into the blood stream; and (III) the phase of the terminal decrease of ODM activity as the cytotoxic lesion of phagocytic cells occurs. Peritoneal exudate macrophages show a more gradual decrease in ODM activity. The infection of the animals with 40,000 LD100 of Y. pestis has been found to produce an increase in the ODM activity of neutrophils, rapidly followed by its decrease to the zero level. Macrophages show phasic changes in their ODM activity, identical to changes in the ODM values of neutrophils in mice infected with 40 LD100 of Y. pestis.     

Analysis of insect toxin complex gene variability of Yersinia pestis and Yersinia pseudotuberculosis strains

The nucleotide sequences of the Tc's insect toxin complex genes have been analyzed in 18 natural strains of the main and non-main subspecies of Yersinia pestis isolated in different natural foci in the Russian Federation, as well as neighboring and more remote countries, as compared to the data on Y. pestis and Y. pseudotuberculosis strains stored in the NCBI GenBank database. The nucleotide sequences of these genes in plague agent strains have been found to be highly conserved, in contrast to those of the pseudotuberculosis agent. The sequences of two genes, tcaC and tccC2, have been found to be almost identical in Y. pestis strains, whereas other three genes (tcaA, tcaB, and tccC1) contain a few mutations, which, however, are not common for all strains of the plague agent. Exceptions are only strains of the Y. pestis biovar orientalis, whose tcaB gene is in a nonfunctional state due to a nucleotide deletion. The results suggest that the formation of the species Y. pestis as an agent of a natural focal infection with a transmissive mechanism has not resulted in degradation of the Tc's complex genes. Instead, these genes are likely to have been altered as the plague agent have been adapting to the new environment.     

Immunoelectrophoretic analysis of the antigenic composition of Yersinia

The antigenic composition of 24. Y. pseudotuberculosis newly isolated and reference strains, 7 Y. enterocolitica strains, as well as Y. pestis vaccine strain EV, has been studied by the method of immunoelectrophoresis in agar. The antigenic composition of these bacteria has been found to be complicated and to comprise not less than 8-11 antigens, and among them nonspecific protein antigens common for enterobacteria, the common generic antigen, the antigen common with Y. pestis, as well as O-antigens specific for each serovar are identified. Immunoelectrophoretic study has shown the possibility of Y. pseudotuberculosis O-antigen, serovar I, with Salmonella sera, serogroup A, and Y. enterocolitica 09 with brucellar and cholera sera.     

A cloned chromosomal DNA fragment which differentiates Yersinia pestis from Yersinia pseudotuberculosis and Yersinia enterocolitica

Chromosomal DNA from reference Yersinia strains was digested individually with 9 restriction endonucleases. DNA fragments were separated and analyzed by electrophoresis through agarose gels. The clearest fragment patterns were obtained when EcoRI was employed. The Y. pestis fragment pattern obtained after the use of this enzyme showed the presence of a unique DNA fragment with molecular mass 1400 bp. This DNA fragment was cloned, purified, labeled with 32P and then used to probe EcoRI digests of all three Yersinia species. A strong hybridization signal was obtained with Y. pestis strain. No such signal was found with Y. pseudotuberculosis or Y. enterocolitica. These results indicate that the DNA fragment is species specific and could be used as a diagnostic DNA probe for Y. pestis.     

Isolation of monoclonal antibodies for the identification of strains of the causative agent of plague that do not contain a capsular antigen

In most cases the immunological identification of Y. pestis strains is based on the use of capsular antigen as an immunological marker. However, there are Y. pestis strains without capsular antigen. For the immunological identification of such strains, homogeneous antigen with a molecular weight of 43 KD has been isolated and monoclonal antibodies to it have been obtained. The enzyme-linked immunosorbent assay, carried out with the use of these monoclonal antibodies and intended for the detection of antigen with a molecular weight of 43 KD, has been developed. The sensitivity of the assay is about 10 ng/ml.     

The high-pathogenicity island of Yersinia pseudotuberculosis can be inserted into any of the three chromosomal asn tRNA genes

Pathogenicity islands (PAIs) have been identified in several bacterial species. A PAI called high-pathogenicity island (HPI) and carrying genes involved in iron acquisition (yersiniabactin system) has been previously identified in Yersinia enterocolitica and Yersinia pestis . In this study, the HPI of the third species of Yersinia pathogenic for humans, Y. pseudotuberculosis , has been characterized. We demonstrate that the HPI of strain IP32637 has a physical and genetic map identical to that of Y. pestis . A gene homologous to the bacteriophage P4 integrase gene is located downstream of the asn tRNA locus that borders the HPI of strain IP32637. This int gene is at the same position on the HPI of all three pathogenic Yersinia species. However, in contrast to Y. pestis 6/69, the HPI of Y. pseudotuberculosis IP32637 is not invariably adjacent to the pigmentation segment and can be inserted at a distance ≥ 190 kb from this segment. Also, in contrast to Y. pestis and Y. enterocolitica , the HPI of Y. pseudotuberculosis IP32637 can precisely excise from the chromosome, and, strikingly, it can be found inserted in any of the three asn tRNA loci present on the chromosome of this species, one of which is adjacent to the pigmentation segment. The pigmentation segment, which is present in Y. pestis but not in Y. enterocolitica , is also present and well conserved in all strains of Y. pseudotuberculosis studied. In contrast, the presence and size of the HPIs vary depending on the serotype of the strain: an entire HPI is found in strains of serotypes I only, a HPI with a 9 kb truncation in its left-hand part that carries the IS 100 sequence and the psn and ybtE genes characterizes the strains of serotype III, and no HPI is found in strains of serotypes II, IV and V.     

Development of an improved selective agar medium for isolation of Yersinia pestis

Existing media designed for selective isolation of clinically important members of the genus Yersinia were found to be unsatisfactory for the growth and isolation of Yersinia pestis. We report the development of a new selective agar medium (termed BIN) that supports the growth of Y. pestis. The development of the formulation of this medium was based on a fluorescence screening system designed for monitoring bacterial growth on semisolid media, using a green fluorescent protein-expressing strain. High-throughput combinatorial experiments can be conducted for the quantitative evaluation of the effect of different medium components on growth. Generation of fluorescence plots in this system, using microplates, allowed the quantitative evaluation of the growth rate of Y. pestis EV76 cultures in different agar compositions. The final BIN formulation is based on brain heart infusion agar, to which the selective agents irgasan, cholate salts, crystal violet, and nystatin were introduced. It was found that BIN agar is more efficient in supporting colony formation and recovery of Y. pestis than are the conventional semisolid media MacConkey agar and Yersinia-selective agar (cefsulodin-irgasan-novobiocin agar). The advantage of BIN over other media has been also demonstrated in recovering virulent Y. pestis from the mixed bacterial populations found in decaying carcasses of infected mice. The BIN medium is suggested as a selective medium for isolation and recovery of Y. pestis from various backgrounds.     

Analysis of genomic polymorphism of typical and atypical strains of the plague pathogen using polymerase chain reaction with universal primers

An analysis of genome polymorphism of the Y. pestis strains by using the method of polymerase chain reaction (PCR) for the tandem repeats of bacteriophage M13 DNA revealed a species similarity of both typical and atypical (according to diagnostic signs) plague-microbe strains. Strain Y. pestis A-1726 with the atypical differential-and-diagnostic properties, without the amplicon specified for Y. pestis and sized 1000 b.p., was identified among 27 analyzed Y. pestis strains. The amplicon profiles of the basic Y. pestis subtype were found to be different from such profiles of other Y. pestis subtypes.     

The properties of the cellular surface of Yersinia pestis strain EV and its achromogenic variants

The comparative study of the properties of the surface of vaccine strain Y. pestis EV and its achromogenic variants (AV) differing from the initial strain by decreased immunogenicity and by the morphology of colonies, has been made. The achromogenicity of Y. pestis colonies has been shown to correlate with the loss of the outer membrane protein with a molecular weight 22 kD. The synthesis of this protein is determined by chromosomal genes. AV have been found to have different sensitivity to bacteriophages. The analysis of the electrokinetic potential of Y. pestis EV and its AV has revealed that in the latter have surface charge is considerably greater (1.4- to 1.5-fold). As shown in this study, the hemagglutinating activity of AV with respect to red blood cells of humans with blood group I (O) and guinea pigs is decreased by 1-2 orders and these strains do not agglutinate with sheep red blood cells. The low activity of the initial stage of the phagocytosis of AV by mouse macrophages has been shown. The possible role of the 22 kD proteins as an adhesion factor is discussed.     

Study of the role of CCR5 in a mouse model of intranasal challenge with Yersinia pestis

CCR5 is a chemokine receptor used by HIV-1 to enter cells and has recently been found to act as a pathogen associated molecule pattern receptor. Current positive selection for the high frequency of a CCR5-Delta32 allele in humans has been attributed to resistance to HIV, smallpox, and plague infections. Using an intranasal mouse model of Y. pestis infection, we have found that lack of CCR5 does not enhance host resistance to Y. pestis infection and that CCR5-mediated responses might have a protective role. CCR5-/- mice exhibited higher levels of circulating RANTES and MIP-1alpha than those exhibited by wild-type mice at the baseline and throughout the course of Y. pestis infection. High levels of RANTES and MIP-1alpha, which are CCR5 ligands that mediate Natural Killer cell migration, may reflect compensation for the absence of CCR5 signaling.     

Antigenic activity of external membrane proteins in Yersinia pestis EV

The study of immunocomplexes obtained from antisera to the preparations of Y. pestis outer membranes and membrane proteins has revealed that outer membrane proteins are involved in the formation of the immunocomplex and belong to previously unknown Y. pestis EV antigens.     

Plasminogen activator Pla of Yersinia pestis utilizes murine DEC-205 (CD205) as a receptor to promote dissemination

Yersinia pestis, a Gram-negative bacterium that causes bubonic and pneumonic plague, is able to rapidly disseminate to other parts of its mammalian hosts. Y. pestis expresses plasminogen activator (PLA) on its surface, which has been suggested to play a role in bacterial dissemination. It has been speculated that Y. pestis hijacks antigen-presenting cells, such as macrophages (MPhis) and dendritic cells, to be delivered to lymph nodes to initiate dissemination and infection. Both alveolar MPhis and pulmonary dendritic cells express a C-type lectin receptor, DEC-205 (CD205), which mediates antigen uptake and presentation. However, no ligand has been identified for DEC-205. In this study, we show that the invasion of alveolar MPhisby Y. pestis depends both in vitro and in vivo on the expression of PLA. DEC-205-expressing MPhis and transfectants, but not their negative counterparts, phagocytosed PLA-expressing Y. pestis and Escherichia coli K12 more efficiently than PLA-negative controls. The interactions between PLA-expressing bacteria and DEC-205-expressing transfectants or alveolar MPhis could be inhibited by an anti-DEC-205 antibody. Importantly, the blockage of the PLA-DEC-205 interaction reduced the dissemination of Y. pestis in mice. In conclusion, murine DEC-205 is a receptor for PLA of Y. pestis, and this host-pathogen interaction appears to play a key role in promoting bacterial dissemination.     

The effect of the adhesion pili of Yersinia pestis on the physiological activity of the leukocytes and macrophages in experimental animals

The data on the influence of the preparation of Y. pestis adhesion pili on peritoneal macrophages in white mice and guinea pigs are presented. Y. pestis adhesion pili have been found to induce the dose-dependent increase of cell chemiluminescence. They have also been found to induce a number of biochemical changes in target cells: the secretion of myeloperoxidase, an increase in the activity of cAMP-dependent protein kinases.     

Immunogenicity of Yersinia pestis grown on nutrient media at 28 and 37 degrees C

The immunogenicity of Y. pestis strain EV, grown in yeast-casein medium, yeast medium with Hottinger digest and yeast medium with sunflower-seed protein at 28 degrees C and 37 degrees C, for guinea pigs and white mice has been studied. As revealed in this study, these media ensure the formation of highly immunogenic populations of Y. pestis strain EV and, therefore, can be used for growing Y. pestis vaccine strains. Considerable fluctuations in the content of such highly protective antigen as fraction 1 do not affect the immunogenicity of live cultures of Y. pestis strain EV. This is due to the leveling of differences in the content of this antigen in the process of the multiplication of these bacteria in laboratory animals.