Immunobiological properties of Yersinia pestis antigens

The present review contains information concerning immunobiological properties of plague microbe antigens. All of the identified antigens are evaluated in relation to pathogenicity of Yersinia pestis namely a resistance to phagocytosis, toxicity, adhesiveness etc. as well as persistence ability and adaptation to variable environment. In addition, the role of antigens in immunogenicity of living plague microbe for experimental animals is considered. The data concerning mechanisms of antigenic contribution to the development of adaptive immunity are presented.     

Origin of the plague microbe <Emphasis Type="Italic">Yersinia pestis</Emphasis>: Structure of the process of speciation

The origin and evolution of the plague microbe Yersinia pestis are considered in the context of propositions of modern Darwinism. It was shown that the plague pathogen diverged from the pseudotuberculous microbe Yersinia pseudotuberculosis O:1b in the mountain steppe landscapes of Central Asia in the Sartan: 22000-15000 years ago. Speciation occurred in the tarbagan (Marmota sibirica)-flea (Oropsylla silantiewi) parasitic system. The structure of the speciation process included six stages: isolation, genetic drift, enhancement of intrapopulational polymorphism, the beginning of pesticin synthesis (genetic conflict and emergence of hiatus), specialization (stabilization of characteristics), and adaptive irradiation (transformation of the monotypic species Y. pestis tarbagani into a polytypic species). The scenario opens up wide prospects for construction of the molecular phylogeny of the plague microbe Y. pestis and for investigation of the biochemical and molecular-genetic aspects of “Darwinian” evolution of pathogens from many other nature-focal infections.     

The phenomenon of <Emphasis Type="Italic">Yersinia pestis</Emphasis> biofilm formation in the organism of fleas

The paper considers, for the first time, the formation of the extracellular matrix envelope (EME), or the biofilm, by Yersinia pestis as the basis determining the nature of interaction of the plague agent with the flea organism. The significance of the insect proventriculus in the process of biofilm formation is shown. The ultrastructure of the conglomerates of the plague microbe in the flea proventriculus and midgut was studied and the uniform mechanism of their formation was established. The role of Yersinia pestis biofilm in preservation of the plague microbe in the intestine of ectoparasites and in the soil of rodent burrows was discussed. PCR analysis confirmed the presence of the agent in plague infected corpses and flea feces stored at +8−10°C for 7 years and 9 months.     

Principles of speciation of the plague causative agent <Emphasis Type="Italic">Versinia pestis</Emphasis>: Gradualism or saltation?

The saltation origin of the causative agent of the plague Yersinia pestis from the pseudotuberculosis microbe Y. pseudotuberculosis O:1b has been proclaimed in recent investigations on molecular genetics. The speciation process in this case is proposed to be connected with horizontal transfer of exogenous genetic structures (such as specific plasmids pFra and pPst) into the genome of the ancestral form. The alternative “Darwinian” model of the gradual origin of the plague agent is proposed based on ecological factors. The comparison of two evolutionary scenarios, saltation and gradual, is performed; the latter seems more likely.     

Immunization of mice with YscF provides protection from <Emphasis Type="Italic">Yersinia pestis</Emphasis> infections

Background  

Yersinia pestis, the causative agent of plague, is a pathogen with a tremendous ability to cause harm and panic in populations. Due to the severity of plague and its potential for use as a bioweapon, better preventatives and therapeutics for plague are desirable. Subunit vaccines directed against the F1 capsular antigen and the V antigen (also known as LcrV) of Y. pestis are under development. However, these new vaccine formulations have some possible limitations. The F1 antigen is not required for full virulence of Y. pestis and LcrV has a demonstrated immunosuppressive effect. These limitations could damper the ability of F1/LcrV based vaccines to protect against F1-minus Y. pestis strains and could lead to a high rate of undesired side effects in vaccinated populations. For these reasons, the use of other antigens in a plague vaccine formulation may be advantageous.     

Thymidine phosphorylase activity and its relationship to trimethoprim in initial strains and thymidine-, thymine-dependent and trimethoprim-resistant mutants of plague microbe]

The comparative study revealed thymidine phosphorylase activity in the initial strains of a plague microbe of the field variety and in thymidine-, thymine-dependent and trimethoprim-resistant mutants of the plague microbe of other varieties. The data fully conformed to the results of the microbiological investigation of the strains' ability to grow on the nutrient media with trimethoprim in the presence of thymine and thymidine. On the basis of these results it appeared possible to divide the initial and mutant strains of the plague microbe into four arbitrary groups: initial strains of the plague microbe of all the varieties except the field ones sensitive to trimethoprim under any temperature conditions of incubation on any medium with any supplements; initial strains of the plague microbe of the field variety resistant to trimethoprim at 28 degrees C in the presence of thymine or thymidine alone; Tmpr mutants whose resistance to trimethoprim at 28 degrees C did not depend on the presence of thymine or thymidine, purine and vitamins, but depended on the presence of these substances at a temperature of 37 degrees C.     

Ecological Aspects of Evolution of the Plague Microbe Yersinia pestis and the Genesis of Natural Foci

A new hypothesis of the origin of the plague microbe in the Mongolian bobak (Marmota sibirica Radde, 1862) populations in Central Asia during the Pleistocene is based on the ideas of its relative phylogenetic recency. The Late Pleistocene cooling, which induced a deep freezing of the grounds in southern Siberia, Mongolia, and Manchuria, is considered as an inducer of speciation. The main ecological factors of the plague microbe evolution include the species specific behavior of the Mongolian bobak as it prepared to hibernate related to its occurrence in arid petrophytic landscapes and the larval parasitism of the flea Oropsylla silantiewi Wagn., 1898 in winter. Genesis of the plague foci is divided into two periods: natural-historical and biosocial. During the first period, the primary natural foci in Eurasia were formed and, during the second period, synanthropic (rat) and secondary natural foci appeared with the participation of humans in Africa, The New World, and on some tropical islands.     

Antibiotic sensitivity of plague microbe strains from foreign countries]

The method of serial dilutions on the Hottinger agar was applied to comparative assay of antibiotic sensitivity in 50 strains of the plague microbe isolated abroad and in 5 strains isolated in the plague focus in the Central Caucasus. The antibiotics used in the assay were the following: streptomycin, gentamicin, doxycycline, monomycin, kanamycin, tetracycline, erythromycin, ristomycin, lincomycin and polymyxin M. Irrespective of the origin, all the isolates were resistant to erythromycin, lincomycin and polymyxin M. The levels of the sensitivity to the other antibiotics were different. The data serve as a ground for the statement that there is no tendency to development of antibiotic resistance in the plague microbe in patients treated with high doses of the antibiotics and mainly streptomycin. Along with streptomycin, such antibiotics as gentamicin, tetracycline, doxycycline and kanamycin are useful in the therapy of plague and require further investigation.     

Iron assimilation by Yersinia pestis on iron-deficient media

The growth of plague bacteria may be limited by the level of iron concentration in the nutrient medium. The virulent strains of the plague microbe possess the more pronounced mechanism of iron assimilation as compared to the vaccine strain. The iron ions are extracted by the virulent and vaccine strains only under the cell surface contact with the iron-saturated transferrin. The iron-sorbing function is peculiar to the plague microbe cell walls which is pronounced more strongly in the virulent strains.     

Genetic bases of methionine dependence in <Emphasis Type="Italic">Yersinia pestis</Emphasis> strains of main and non-main subspecies

Structural and functional organization of genes responsible for biosynthesis of amino acid methionine, which plays a leading role in cellular metabolism of bacteria, was studied in 24 natural Yersinia pestis strains of the major and non-main subspecies from various natural plague foci located in the territory of Russian Federation and neighbouring foreign countries, and also in Y. pestis and Y. pseudotuberculosis strains recorded in the files of NCBI GenBank database. Conservatism of genes metA, metC, metE, and metH as well as regulatory genes metR and metJ involved in biosynthesis of this amino acid was established. Sequencing of the variable locus of gene metB in natural Y. pestis strains of major and non-main subspecies revealed that the reason for the methionine dependence of strains belonging to the main subspecies is a deletion of a single nucleotide (−G) in the 988 position from the beginning of the gene, whereas this dependence in strains belonging to subspecies hissarica results from the appearance of a single nucleotide (+G) insertion in the 989 position of gene metB. These mutations are absent in strains of the caucasica, altaica, and ulegeica subspecies of the plague agent and in strains of pseudotuberculosis microbe, which correlates with their capacity for methionine biosynthesis.     

The epizootiological role of the population organization of the stock of fleas on the long-tailed suslik in a natural focus of plague in Tuva

Spatial location of epizootic events in the Tuva plague focus is determined at a considerable degree by the population structure of the flea Citellophilus tesquorum--the main plague microbe vector. Within the enzootic territory occupied by five populations of the long-tailed ground squirrel (Citellus undulatus) there are six populations of C. tesquorum. Each population of fleas has a corresponding autonomic plague focus. Various conditions for the microbe life activity in these populations are recovered. The circulation of the microbe is closely connected with certain intrapopulation groupings of fleas--the nuclei of populations.     

Paradoxopsyllus scorodumovi (Aphaniptera) flea, an effective vector of plague in a Gorno-Altai natural focus

A study was conducted on the fleas of P. scorodumovi and five local strains of the plague microbe, one of which is typical of the strains of the Altai subspecies and four are non-typical of this nidus. The fleas of this species are capable to transmit not only the plague agent of the strains typical of this nidus but also non-typical ones which differ in some biological properties and are avirulent for most carriers but Pallas's pika. Biological peculiarities of fleas of P. scorodumovi in addition to their high efficiency as vectors of the plague microbe enable us to associate the more active autumn epizooty with fleas of this species.     

Chromosomal resistance of plague agent to quinolones]

The nature of increasing chromosomal resistance to quinolones was studied in a model of the plague microbe. Five virulent strains of the natural plague microbe (Y. pestis) were used in the experiment: 363 (1/1479), 231, 2385, 2442 and 2444. The one-stage procedure for isolation of the mutants was applied. It was shown that the frequency of the one-stage mutants resistant to oxalinic acid, pefloxacin and ciprofloxacin amounted to 10(-9)-10(-11) and was 2 to 3 orders of magnitude lower than that of the mutants resistant to nalidixic acid. Two types of the plague microbe mutants resistant to the quinolones were detected: those resistant to the quinolones to the generations (Nalr-phenotype) and those resistant to the representatives of the 3rd generation quinolones (Nals-phenotype). The quinolones were not efficient in the treatment of albino mice with experimental plague caused by the quinolone-resistant forms of the plague microbe.     

Effect of subinhibitory concentrations of antibiotics on catalase activity of plague microbes]

It was shown that the presence of subinhibitory concentrations of ampicillin, cefotaxime or gentamicin in the cultivation medium had a marked inhibitory effect on the catalase activity of plague microbe. The effect depended on the characteristic features of plague microbe strains and the incubation temperature. When the cells of a virulent strain of the plague microbe Y. pestis 1300 were cultivated at a temperature of 37 degrees C on a medium containing the subinhibitory concentrations of ampicillin or cefotaxime, the pathogen virulence for albino mice significantly decreased.     

Doxycycline in the prevention of experimental plague induced by plague microbe variants]

A comparative study was performed on the efficacy of doxycycline in experimental plague infection induced in albino mice by strain 231 of the plague microbe and its variant 231 Fra- deprived of the ability to produce the fraction I antigen. It was shown that the LD50 for strain 231 during animal treatment with doxycycline was significantly higher than that for variant 231 Fra-. Prophylaxis of the plague infection caused by the Fra- forms of the plague microbe required significantly higher doses of doxycycline (ED50) than that of the infection caused by the Fra+ forms. The use of the daily maximum permissible doses of doxycycline (50 to 100 mg/kg a day) for 10 days in treatment of albino mice infected with the strain Fra- did not provide animal survival at the level higher than 60 to 70 per cent while the survival rate in the animals infected with the strain Fra+ of the plague microbe and treated according to the same scheme amounted to 90-100 per cent. The lower therapeutic efficacy of doxycycline in the treatment of the infection caused by the fractionless variant of the plague microbe should be considered in development of rational schemes for prophylaxis and treatment of plague.     

Transport of basic amino acids into Yersinia pestis cells

The transport of the basic amino-acids into the plague microbe cells has been shown to proceed by means of two transfer systems, the common transfer system and the system specific for lysine. Besides that, arginine can be transported into the plague microbe cells by the histidine transport system. The vaccine strain EV NIIEG was used as a model to study the amino-acid transport systems.     

Analysis of insect toxin complex gene variability of <Emphasis Type="Italic">Yersinia pestis</Emphasis> and <Emphasis Type="Italic">Yersinia pseudotuberculosis</Emphasis> 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.     

Sensitivity of different strains of the causative agent of plague to disinfectants]

Various strains of the plague microbe was found to have statistically significant differences in their sensitivity to phenol, formaldehyde and chloramine. These differences did not correlate with the origin, virulence and nutritional requirements of the plague strains. The sensitivity of the plague microbe to formaldehyde and phenol was found to be related to the permeability of its cell wall.     

Efficiency of Neopsylla abagaitui fleas as plague vectors in Transbaikalia

Experiments have shown that the block of proventriculus develops in 1.1 to 1.5% of individuals of the flea Neopsylla abagaitui infected with plague microbe. These insects transmit the agent during bloodsucking to different plague carriers (Citellus dauricus, C. undulatus, Meriones unguiculatus, Microtus gregalis). The plague microbe is preserved in fleas for 65 days (the observation period).     

Sympatric speciation of the plague microbe <Emphasis Type="Italic">Yersinia pestis</Emphasis>: Monohostal specialization in the host–parasite marmot–flea (<Emphasis Type="Italic">Marmota sibirica–Oropsylla silantiewi</Emphasis>) system

An ecological scenario of the origin of the plague microbe that is interpreted in the light of modern Darwinism (synthetic theory of evolution) is presented. It is shown that the plague microbe emerged from a clone of the psychrophilic saprozoonotic pseudotuberculosis microbe Yersinia pseudotuberculosis O:1b in the mountain steppe landscapes of Central Asia in the Sartan time, 22000–15000 years ago, in the monohostal Mongolian marmot (Marmota sibirica)–flea (Oropsylla silantiewi) host–parasite system. It was noted that the evolutionary process described corresponds to the sympatric form of speciation by transition of the clone of migrant founders to a new, already-existing ecological niche. It was established that monohostal specialization of the plague microbe was made possible due to heterothermia (5–37°C) of marmots in the hibernation period. The factors of the speciation process—isolation, the struggle for existence, and natural selection—were analyzed.