Study of trimethoprim sensitivity in strains of Yersinia pestis isolated from various natural foci of plague

The effect of exogenic addition of purines and pyrimidines on trimethoprim sensitivity was studied in 134 vaccinal and virulent strains of the plague causative agent isolated at various periods in 12 natural plague foci. 74 strains proved to be sensitive to low concentrations of trimethoprim in the cultivation media irrespective of the presence or absence of thymine or thymidine in them. In this respect the strains differed from many other bacterial species which in the presence of thymidine or thymine were resistant to high concentrations of trimethoprim. 60 natural arginine deficient strains of the plague causative agent from Transcaucasia and Mongolia showed high levels of resistance to trimethoprim on media with thymine or thymidine. The possible mechanism of the plague microbe sensitivity to trimethoprim in the presence of thymine or thymidine is discussed with an account of the literature and original data.     

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.     

Antagonistic and insecticidal properties of soil micromycetes

It was shown that microscopic fungi isolated in plague foci had an antagonistic effect on the plague causative agent. In the majority of the cases it was associated with their insecticidal activity against plague-transmitting fleas. It is expedient to consider the relations revealed between the burrow biocenosis components in investigation of plague enzootic aspects and development of new biological insecticides for control of the infection carriers.     

Complex method for epizootiological and epidemiological surveillance

A complex method for the epizootological and epidemiological surveillance of a number of bacterial and viral infections on the territories inside and outside their natural foci has been developed. The investigation techniques are described and the data on the isolation rate of each causative agent in different geographical zones are presented. In the natural foci of plague and tularemia, as well as on the territories outside such foci, the causative agents of intestinal yersiniosis, pseudotuberculosis, salmonellosis, erysipeloid, staphylococci and streptococci, arena- and arboviruses have been isolated from the rodents and ectoparasites under study. The results of this investigation suggest that the method may be recommended for use in medical institutions dealing with the problems of infections originating from natural foci.     

Spheroplasts of plague microbe strains from the Transcaucasian uplands and their capacity for pesticin synthesis]

Spherical formations of the plague microbe strains from the Transcaucasian Upland, I plague microbe strain of the sandwort variety and I strain of the marmot variety were obtained under the effect of lithium chloride. They had the remains of the cell wall, were viable, sensitive to osmotic shock, preserved sensitivity to the specific bacteriophage and pesticins. All this was evident of isolation of the spheroplasts of the plague microbe. The spheroplasts showed a capacity for pesticin production. The pesticin synthesis by the spheroplasts of the plague causative agent from the Transcaucasian Upland increased with an increase in the content of lithium chloride in the medium. The largest inhibiiton zones were observed, when 0.7-0.8 per cent of lithium chloride were present in the medium. In the spheroplasts of the plague causative agent from the Mountain Altai (the marmot variety) the pesticin synthesis was inhibited with an increase in the content of lithium chloride in the medium. The activity spectrum of the pesticins of the spheroplasts of the plague causative agent from the Transcaucasian Upland and the spheroplasts of the strains of the marmot and sandwort varieties was broader than that of the rod-like forms of these strains. The indicator properties were found in the strains of the plague microbe of the marmot and sandwort varieties with respect to the pesticins of the spheroplasts of the sel-like producing organisms and organisms from the Transcaucasian Upland.     

Relationship of the flea Citellophilus tesquorum altaicus (Siphonaptera: Ceratophyllidae) with the plague agent

Some aspects of relationships of the flea Citellophilus tesquorum altaicus and bacterium Yersinia pestis of two strains isolated from different parts of the Tuva natural plague focus were studied. Peculiarities of elimination and blood meal activity of fleas infected with two strains of the plague agent were not revealed. Differences in mortality and alimentary activity are considerably determined by the sex of insects. The ability of examined strains to form a proventriculus block was not identical in the strains examined. This ability was expressed higher in the strain I-3428, which originated from the same part of the natural focus as the insectarium flea culture, than in the strain I-3327. During the spring and first half of summer, the proventriculus block appeared more frequently in females. The increasing of the fraction of blocked individuals was observed in both sexes from spring to summer. As for the ability to transmit the plague agent, similar seasonal increasing was noted in males, but in females, the ability to inoculate the plague microbe was always maintained at the same level.     

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.     

Detection and characterization of the plasmids of the plague microbe which determine the synthesis of pesticin I, fraction I antigen and "mouse" toxin exotoxin

Plasmid DNA was isolated from Yersinia pestis strains containing pesticin I or fraction I antigen and "mouse" toxin determinants. Specificity of DNA preparations was studied by using them for transformation of plague agent strains carrying no plasmids. pPstI plasmid (molecular weight 7,0-7,8 MD) encoded pesticin I, fibrinolysin and plasmacoagulase synthesis. Fraction I antigen and "mouse" toxin production determinants were borne on pFraI/Tox plasmid (molecular weight about 50 MD). The observation that some Y. pestis cultures, having lost the ability to synthesize one of pFraI/Tox products, still retained this plasmid in their cells, is regarded as an evidence for a complicated regulation of pFraI/Tox function.     

Yersinia pestis strains isolated in natural plague foci of Caucasus and Transcaucasia in the context of the global evolution of species

BackgroundPlague is a highly dangerous vector-borne infectious disease that has left a significant mark on history of humankind. There are 13 natural plague foci in the Caucasus, located on the territory of the Russian Federation, Azerbaijan, Armenia and Georgia. We performed whole-genome sequencing of Y. pestis strains, isolated in the natural foci of the Caucasus and Transcaucasia. Using the data of whole-genome SNP analysis and Bayesian phylogeny methods, we carried out an evolutionary-phylogeographic analysis of modern population of the plague pathogen in order to determine the phylogenetic relationships of Y. pestis strains from the Caucasus with the strains from other countries.ResultsWe used 345 Y. pestis genomes to construct a global evolutionary phylogenetic reconstruction of species based on whole-genome SNP analysis. The genomes of 16 isolates were sequenced in this study, the remaining 329 genomes were obtained from the GenBank database. Analysis of the core genome revealed 3315 SNPs that allow differentiation of strains. The evolutionary phylogeographic analysis showed that the studied Y. pestis strains belong to the genetic lineages 0.PE2, 2.MED0, and 2.MED1. It was shown that the Y. pestis strains isolated on the territory of the East Caucasian high-mountain, the Transcaucasian high-mountain and the Priaraksinsky low-mountain plague foci belong to the most ancient of all existing genetic lineages - 0.PE2.ConclusionsOn the basis of the whole-genome SNP analysis of 345 Y. pestis strains, we describe the modern population structure of the plague pathogen and specify the place of the strains isolated in the natural foci of the Caucasus and Transcaucasia in the structure of the global population of Y. pestis. As a result of the retrospective evolutionary-phylogeographic analysis of the current population of the pathogen, we determined the probable time frame of the divergence of the genetic lineages of Y. pestis, as well as suggested the possible paths of the historical spread of the plague pathogen.     

Dynamics of CRISPR Loci in Microevolutionary Process of Yersinia pestis Strains

The potential use of CRISPR loci genotyping to elucidate population dynamics and microevolution of 146 Yersinia pestis strains from different biovars and locations was investigated in this work. The majority of strains from the Orientalis biovar presented specific spacer arrays, allowing for the establishment of a CRISPR signature for their respective isolates. Twenty-one new spacers were found in the Y. pestis strains from plague foci in Brazil. Ninety-three (64%) strains were grouped in the G1 genotype, whereas the others were distributed in 35 genotypes. This study allowed observing a microevolutionary process in a group of Y. pestis isolated from Brazil. We also identified specific genotypes of Y. pestis that were important for the establishment of the bacteria in plague foci in Brazil. The data have provided supporting evidence for the diversity and dynamics of CRISPR loci present in the genome of Y. pestis strains from plague foci in Brazil.     

环介导等温扩增技术检测鼠疫耶尔森菌的敏感性和特异性研究

为观察环介导等温扩增(loop-mediated isothermal amplification,LAMP)技术能否适用于我国不同疫源地鼠疫耶尔森菌所有基因组型的检测,本研究建立了一种基于3a靶序列设计特异性引物快速检测鼠疫耶尔森菌的LAMP方法.选择分离自我国11个鼠疫自然疫源地的65株野生代表性鼠疫耶尔森菌株,同...     

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.     

Changes in the structure and antibiotic sensitivity of the wound microflora in suppurative surgical infection of the soft tissues

The results of the study on the composition, properties and antibiotic sensitivity of pathogenic microbes isolated from purulent wounds of the soft tissues of patients treated in the Institute clinic in 1977-1980 are presented. The frequency of secondary infection of the purulent wounds was estimated. During this period the percentage of gram-negative bacteria isolated from opened purulent foci increased. In some cases investigation of the time course of the purulent processes revealed new microbial strains, such as pathogenic staphylococci or opportunistic gram-negative bacteria. Sometimes replacement of the causative agent by new organisms was observed. The new strains were high- and multiple-resistant to the antibiotics.     

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.     

Complete Genome Sequences of Yersinia pestis from Natural Foci in China

Yersinia pestis, the causative agent of plague, is a deadly bacterium that affects humans. Strain D106004 was isolated from a new plague focus in Yulong County, China, in 2006. To gain insights into the epidemic origin, we have sequenced the genomes of D106004 and strains Z176003 and D182038, isolated from neighboring regions.This article describes genomic comparisons between three respective Yersinia pestis strains isolated from new natural plague foci in China. Y. pestis strain D106004 was isolated from Apodemus chevrieri in Yulong County in 2006, and its genome was compared to those of strain D182038 (isolated from A. chevrieri in 1982 from Jianchuan County) and strain Z176003 (isolated from Marmota himalayana in 1976 in Naqu [Tibet] County).Between 25 October 2005 and 2 November 2005, there was an outbreak of pneumonic plague in Yulong, which was identified as a new natural plague focus (13). The primary Y. pestis reservoirs associated with this outbreak were A. chevrieri, Eothenmys miletus, and Apodemus latronum, and the primary vectors associated with plague transmission were also identified as similar to what was observed in neighboring Jianchuan County (7). However, the Y. pestis strain identified metabolized maltose significantly differently than the previously described strains (6).Whole-genome shotgun and solexa methods were used, as previously described (3), to compare the Y. pestis D106004, D182038, and Z176003 sequences, which consisted of 475, 385, and 413 contigs, respectively, resulting in an average 9-fold coverage across the genomes. All isolates examined possessed a single circular chromosome with the three virulence plasmids (pMT, pCD, and pPCP) associated with classical Y. pestis strains. Automated gene modeling was carried out using the Glimmer3 software program (11) in addition to comparing the respective gene products using the Nt, Nr, KEGG, Swissprot, and COG databases using the basic local alignment search tool for proteins (BLASTP). Open reading frames (ORFs) in the respective 4,626,944-bp, 4,640,720-bp, and 4,553,586-bp genomes of strains D182038, D106004, and Z176003 were predicted to be of 3,642, 3,636, 3,543, and more than 300 bp in length. Strains D182038, D106004, and Z176003 each had six rRNA (16S-23S-5S) genes and 73 (D182038), 70 (D106004), or 68 (Z176003) tRNA genes predicted by the tRNAScan-SE server (9).Comparison of Y. pestis strains 91001 and KIM to Y. pestis strain CO92 identified genetic rearrangements (5, 10, 12) resulting from insertion sequences (2), and pulsed-field gel electrophoresis (PFGE) profile comparisons between D182038 and D106004 suggested that genomic variability of the Y. pestis strains from different foci was caused by genome rearrangement (16). According to our analyses, the Y. pestis strains isolated from the two foci have very different syntenic structures due to rearrangement, but they share high similarity between plates (8). In addition, a unique multiple-locus variable-number tandem repeat analysis (MLVA) type was defined for the strains isolated from Yulong, indicating a new clonal group. These results also suggested that the Yulong strains were closely related to the strains from the Qinghai-Tibet Plateau plague foci (15). Analysis of Y. pestis microevolution has been made possible by comparing single- nucleotide polymorphism (SNP) profiles as previously described (1, 4, 14).The availability of high-quality sequences is crucial in order to resolve the origins of the new strains isolated from natural plague foci.     

Genodiagnosis and molecular typing of the pathogens for plague,cholera, and anthrax

The paper contains a survey of published data about the use of DNA-diagnostics in indicating and identifying the causative agents of highly dangerous infections like plague, cholera and anthrax. A discussion of data about the genetic relationship between strains of the mentioned causative agents isolated from different sources by using the molecular-typing methods as well as about the evolution ties between strains of different origins is in the focus of attention. Results of comparative studies of nucleotide sequences of genomes or of individual genomes in different Yersinia pestis, Vibrio cholerae and Bacillus anthracis strains, which are indicative of the evolution of their pathogenicity, are also under discussion.     

Biological properties of strains of tick-borne encephalitis virus isolated in the natural foci of the eastern part of the Russian plain

Strains of tick-borne encephalitis virus isolated in the natural foci of infection in the eastern part of the Russian Plain (the Kirov region) were examined for their biological properties. The strains examined were 69 strains isolated from ticks Ixodes persulcatus, 62 strains obtained from patients with the clinically manifest form of tick-borne encephalitis and 56 strains isolated from the blood of patients with the inapparent form of infection. Comparative studies on laboratory animals (albino mice, golden hamsters, suckling guinea pigs and other mammals) as well as comparative serologic studies provided evidence which suggested that all virus isolates from the Kirov region were antigenically identical with the strain "Sofin" isolated in the Far East and represent thus a single causative agent of the tick-borne encephalitis virus infection. This strain of virus is supposed to exist in two variants, in dependence on ecological conditions: one of these variants is the eastern variant (strain Sofin and strains from the Kirov region) and the other one is the western variant of tick-borne encephalitis virus.     

Bacteriologic and serologic studies of an outbreak of plague in the State of Paraíba, Brazil

During a plaque outbreak in the Borborema Plateau focus (Paraiba), bacteriological and serological studies were carried out in material from 452 patients (48 positives), 1,938 rodents and other small mammals (75 positives), 4,756 dogs (141 positives) and 2,047 cats (57 positives) obtained from 41 counties (out of which, 21 produced positive samples). Twenty Yersinia pestis strains isolated from material from 3 patients and 17 rodents, displayed biochemical reactions, virulence factors, antibiotic susceptibility and animal experimental pathogenicity similar to those observed in strains previously isolated. According to our findings this recent plague outbreak did not exhibit different factors from those observed during prior outbreaks in other plague foci in the northeast of Brazil.     

The trophic responses of two different rodent–vector–plague systems to climate change

Plague, the causative agent of three devastating pandemics in history, is currently a re-emerging disease, probably due to climate change and other anthropogenic changes. Without understanding the response of plague systems to anthropogenic or climate changes in their trophic web, it is unfeasible to effectively predict years with high risks of plague outbreak, hampering our ability for effective prevention and control of the disease. Here, by using surveillance data, we apply structural equation modelling to reveal the drivers of plague prevalence in two very different rodent systems: those of the solitary Daurian ground squirrel and the social Mongolian gerbil. We show that plague prevalence in the Daurian ground squirrel is not detectably related to its trophic web, and that therefore surveillance efforts should focus on detecting plague directly in this ecosystem. On the other hand, plague in the Mongolian gerbil is strongly embedded in a complex, yet understandable trophic web of climate, vegetation, and rodent and flea densities, making the ecosystem suitable for more sophisticated low-cost surveillance practices, such as remote sensing. As for the trophic webs of the two rodent species, we find that increased vegetation is positively associated with higher temperatures and precipitation for both ecosystems. We furthermore find a positive association between vegetation and ground squirrel density, yet a negative association between vegetation and gerbil density. Our study thus shows how past surveillance records can be used to design and improve existing plague prevention and control measures, by tailoring them to individual plague foci. Such measures are indeed highly needed under present conditions with prevailing climate change.     

Results of prolonged study of flood plain-swamp endemic foci of tularemia, and its prophylaxis in the Leningrad Region

The results of a prolonged (more than 18 years), comprehensive study have revealed that stable natural foci of tularemia in backwater swamps are widely spread in the Leningrad region. These foci are located in the narrow swampy flood-plains of small watercourses with adjacent meadow areas among forests. Water from such small watercourses can often serve as the indicator of the epizootic process: during the above-mentioned period 346 Francicella tularensis strain have been isolated from water and 86 strains from small mammals. The water factor plays an important role in the circulation of the infective agent in natural foci.