Various mechanisms of formation of chronic tularemia in highly-sensitive animal species (Microtus rossiae-meridionalis)

Experiments on voles belonging to the tularemia-sensitive species Microtus rossiae-Meridionalis, infected with Francisella tularensis highly virulent strain 503, have been carried out with the aim of studying the pathogenesis of chronic tularemia. The experiments have been made with the use of live and killed microbial cells. The significance of the multiple oral administration of killed bacteria to voles for the development of the atypical form of infection has been shown. The possibility of the early (on day 2) formation of antibodies in the blood of some of the animals has been established. Repeated feeding has been found to lead to almost 100% seroconversion in the animals. This fact can be attributed to the rapid spread of the antigen (1-5 hours) in the organs of individual animals. Besides, the causative agent is present in large amounts in lymphoid formations of the intestinal tract and in the lumen of the intestine, which creates conditions for the early contact of the massive dose of the antigen with immunocompetent cells and for the rapid development of systemic and local immune response. Morphological study indicates the presence of the rapid (24 hours) proliferative reaction of the cells making up the lymphoid apparatus of the intestine, their plasmocytic and macrophagal transformation. Thus, after the infection of voles with a mixture of live and killed bacteria the development of the early phases of the infectious process occurs simultaneously with the systemic and local transformation of the macroorganism, which contributes to the benevolent course of the infectious process in some of the animals.     

Possible atypical course of tularemia (persistence) in the common vole Microtus arvalis Pall

The possibility of the atypical course of tularemia with the prolonged persistence of Francisella tularensis in common voles (M. arvalis), the twin species of East European voles (M. rossiaemeridionalis), was studied. Experiments were made on 33 animals grown in the laboratory. F. tularensis strain 165 was used. The animals were infected by feeding them according to the previously developed scheme. 7 out of 33 voles showed the atypical course of tularemia: in 3 voles the disease took a prolonged course with bacteriuria and death on days 25-34; 3 other voles with bacteriuria registered before days 33, 66 and 172 (the term of observation) survived. The surviving animals were killed on day 183, and the presence of bacteria in their organs and seroconversion were established. One vole excreted no bacteria with urine and had no bacteria in its organs (the animal was examined on day 156), but in its blood specific antibodies were detected. To determine bacteriuria, the immunofluorescence test was used together with biological assays. Thus, M. arvalis, like M. rossiaemeridionalis studied earlier, can harbor F. tularensis at the period between epizootics. When voles of the former species penetrate stacks of straw and hayricks, conditions appear for the transfer of the infection to the latter species, M. rossiaemeridionalis. Therefore, in the foci of the meadow-field type each of these two species of voles may be not only of epizootic, but also of epidemic importance.     

Susceptibility of the common hamster (Cricetus cricetus) to Francisella tularensis and its effect on the epizootiology of tularemia in an area where both are endemic

Francisella tularensis is a highly infectious zoonotic agent causing the disease tularemia. The common hamster (Cricetus cricetus) is considered a pest in eastern Europe, and believed to be a source of human tularemia infections. We examined the role of the common hamster in the natural cycle of tularemia using serologic methods on 900 hamsters and real-time polymerase chain reaction (PCR) on 100 hamsters in an endemic agricultural area. We collected 374 Ixodes acuminatus ticks from the hamsters and tested them by real-time PCR. All tests were negative. To examine clinical signs, pathology, and histopathology of acute tularemia infection similar to the natural infection, two hamsters were infected with a large dose of a wild strain of F. tularensis ssp. holarctica. After a short period of apathy, the animals died on the eighth and ninth days postinfection. The pathologic, histopathologic, and immunohistochemical examination contributed to the diagnosis of septicemia in both cases. Our results confirmed previous findings that common hamsters are highly sensitive to F. tularensis. We conclude that although septicemic hamsters may pose substantial risk to humans during tularemia outbreaks, hamsters in interepizootic periods do not act as a main reservoir of F. tularensis.     

Susceptibility of common voles to experimental toxoplasmosis

Common voles (Microtus arvalis) in groups of nine to 10 animals were inoculated per os with a dose of 1, 10, 1x10(2), 1x10(3), and of the K1 strain of Toxoplasma gondii. All the common voles inoculated with 1 to 1 x 10(3) oocysts remained subclinical and survived. Three of the 10 voles inoculated with 1 x 10(4) oocysts died between days 7 and 12 post inoculation (p.i.). Antibodies were demonstrated in all the infected voles killed on day 60 p.i. The highest antibody titres in voles detected by the dye test (DT) and latex agglutination test (LAT) were 1,024 and 1,280, respectively.     

Comparative proteomic profiling of culture filtrate proteins of less and highly virulent Francisella tularensis strains

The facultative intracellular bacterium Francisella tularensis is the causal agent of the serious infectious disease tularemia. Despite the dynamic progress, which has been made in last few years, important questions regarding Francisella pathogenicity still remain to be answered. Generally, secreted proteins play an important role in pathogenicity of intracellular microbes. In this study, we investigated the protein composition of the culture filtrate proteins of highly virulent F. tularensis subsp. tularensis, strain SCHU S4 and attenuated F. tularensis subsp. holarctica, live vaccine strain using a comparative proteomic analysis. The majority of proteins identified in this study have been implicated in virulence mechanisms of other pathogens, and several have been categorized as having moonlighting properties; those that have more than one unrelated function. This profiling study of secreted proteins resulted in the unique detection of acid phosphatase (precursor) A (AcpA), β-lactamase, and hypothetical protein FTT0484 in the highly virulent strain SCHU S4 secretome. The release of AcpA may be of importance for F. tularensis subsp. tularensis virulence due to the recently described AcpA role in the F. tularensis escape from phagosomes.     

Specific effect of attenuated strain of Francisella tularensis on the development of radiation induced lesions in experimental animals and effictiveness of antibacterial therapy for lesions induced by radiation combined with virulemt strain of the bacteria

For study of the effects of whole-body gamma-radiation (1 and 4 Gy) on the response of the body to administration of vaccines and virulent strains of tularemia 206 outbred white mice were used. The results of the study shown that the administration of attenuated bacterial cells in 5 days after exposure to radiation (1 and 4 Gy) caused more severe post-radiation effects and the increase in the number of died animals. The severity of the disease was less if mice were vaccinated in 26 days after irradiation (4 Gy). The treatment of tularemia in irradiated mice twith Riphampicin (daily peroral administration, 5 mg/mouse, duration of treatment--7 days) administered in 4 hours after infection was effective and caused high survival of affected mice. The results show effectiveness of the riphampicin treatment of tularemia in the animals exposed to sublethal dose of radiation.     

The biological properties of Rickettsia burnetii isolated in the northwestern Ukrainian SSR

Biological properties of two strains of the Burnet rickettsia isolated in the natural foci of the Q fever in the northwest of the Ukrainian SSR are studied. Strain "Gishin" was characterized by high virulence for the laboratory animals and considerably exceeded the strain "Politsa" in the virulent properties. Antigen of phase I prepared from the strain "Politsa" was highly active in revealing the corresponding antibodies. The high-sensitive reaction of indirect immunofluorescence has shown the possibility to determine antibodies to phase I of the agent already from the 17th day after infection. Circulation of the Q fever agent with different virulent properties has indicated the necessity of purposeful diagnosis of this sickness both among the acute fever diseases and among flaccid course, subclinical and chronic ones not excluding the etiological role of the Burnet rickettsia.     

Generation of a convalescent model of virulent Francisella tularensis infection for assessment of host requirements for survival of tularemia

Francisella tularensis is a facultative intracellular bacterium and the causative agent of tularemia. Development of novel vaccines and therapeutics for tularemia has been hampered by the lack of understanding of which immune components are required to survive infection. Defining these requirements for protection against virulent F. tularensis, such as strain SchuS4, has been difficult since experimentally infected animals typically die within 5 days after exposure to as few as 10 bacteria. Such a short mean time to death typically precludes development, and therefore assessment, of immune responses directed against virulent F. tularensis. To enable identification of the components of the immune system that are required for survival of virulent F. tularensis, we developed a convalescent model of tularemia in C57Bl/6 mice using low dose antibiotic therapy in which the host immune response is ultimately responsible for clearance of the bacterium. Using this model we demonstrate αβTCR(+) cells, γδTCR(+) cells, and B cells are necessary to survive primary SchuS4 infection. Analysis of mice deficient in specific soluble mediators shows that IL-12p40 and IL-12p35 are essential for survival of SchuS4 infection. We also show that IFN-γ is required for survival of SchuS4 infection since mice lacking IFN-γR succumb to disease during the course of antibiotic therapy. Finally, we found that both CD4(+) and CD8(+) cells are the primary producers of IFN-γand that γδTCR(+) cells and NK cells make a minimal contribution toward production of this cytokine throughout infection. Together these data provide a novel model that identifies key cells and cytokines required for survival or exacerbation of infection with virulent F. tularensis and provides evidence that this model will be a useful tool for better understanding the dynamics of tularemia infection.     

Live Attenuated Francisella novicida Vaccine Protects against Francisella tularensis Pulmonary Challenge in Rats and Non-human Primates

Francisella tularensis causes the disease tularemia. Human pulmonary exposure to the most virulent form, F. tularensis subsp. tularensis (Ftt), leads to high morbidity and mortality, resulting in this bacterium being classified as a potential biothreat agent. However, a closely-related species, F. novicida, is avirulent in healthy humans. No tularemia vaccine is currently approved for human use. We demonstrate that a single dose vaccine of a live attenuated F. novicida strain (Fn iglD) protects against subsequent pulmonary challenge with Ftt using two different animal models, Fischer 344 rats and cynomolgus macaques (NHP). The Fn iglD vaccine showed protective efficacy in rats, as did a Ftt iglD vaccine, suggesting no disadvantage to utilizing the low human virulent Francisella species to induce protective immunity. Comparison of specific antibody profiles in vaccinated rat and NHP sera by proteome array identified a core set of immunodominant antigens in vaccinated animals. This is the first report of a defined live attenuated vaccine that demonstrates efficacy against pulmonary tularemia in a NHP, and indicates that the low human virulence F. novicida functions as an effective tularemia vaccine platform.     

Detection of the tularemia zoonosis in the territory of the Kartlian Plain

The natural focus of tularemia was found to cover the whole territory of the Kartlian plain. Epizooty occurred mainly among common voles with the involvement of insectivorous voles. Hard ticks, gamasids and fleas infected with Francisella tularensis were detected. Rodents highly sensitive to tularemia can be affected by this infection. Water rats were not involved into the enzootic process. Further studies are necessary for the final solution of this problem.     

Isolation of the causative agent of tularemia from an inoculum from skin lesions in the ulcerobubonic form of the disease

A case of tularemia in a human patient infected through the sting of a gadfly (Tabanus) is described. The causative agent of the disease was isolated from the patient with the ulcerobubonic form of the disease by the method of the direct inoculation of the contents of the patient's cutaneous effect. The properties of the isolated culture were established; the strain thus obtained was classified as a representative of the geographical race Francisella tularensis holarctica 01s. The causative agent circulating in the human patients was found to be fully virulent.     

Earthworms as paratenic hosts of toxoplasmosis in eastern barred bandicoots in Tasmania

An experimental feeding study was designed to assess the role of earthworms in the transmission of Toxoplasma gondii infection to eastern barred bandicoots (Perameles gunnii). Six animals with no agglutinating antibodies to T. gondii were fed artificially cultured earthworms that had been maintained in autoclaved nutrient-enriched soil. Two animals were given earthworms that had been maintained in soil contaminated with T. gondii oocysts (P89/VEG strain); two animals were fed on earthworms, which initially had been exposed to soil containing T. gondii oocysts then transferred through three changes of sterile soil; two control bandicoots were fed earthworms maintained in sterile soil. Both bandicoots fed earthworms maintained in T. gondii contaminated soil died 11 and 14 days after feeding. The necropsy findings were consistent with acute toxoplasmosis. Bandicoots fed earthworms exposed to oocysts but then transferred through changes of sterilized soil remained healthy as did control animals. All surviving animals remained seronegative over the 6 wk observation period after feeding. These findings confirm that earthworms, a major component of the natural diet of P. gunnii, can transmit T. gondii infection. It appears that oocysts present in the alimentary tracts of the worms, rather than infective stages of T. gondii in worm somatic tissues, are responsible for these infections.     

Interaction of S- and R-lipopolysaccharides of Francisella tularensis with lypopolysaccharide-binding protein of human serum

Investigation of ability of Francisella tularensis S- and R-lypopolysaccharide (LPS) preparations as well as the live bacteria with different chemotypes to interact with human lypopolysaccharide-binding protein (LBP) was carried out. It was found that LPS preparations derived from virulent(S-LPS) or isogenic avirulent mutant (R-LPS) strains of F. tularensis had markedly lower affinity to LBP as compared with typical S-LPS of Salmonella abortus and R-LPS of Yersinia pestis. It was shown that R-LPS preparation from avirulent mutant binds LPB more effectively than S-LPS from F. tularensis virulent strain. Differences in S- and R-LPS affinity were also confirmed for LPS represented by the live cells. Thus, bacteria with S-chemotype of LPS (F. tularensis 15/10) bound only 20.3% of LBP, whereas cells with R-LPS (F. tularensis 543 cap(-)) bound 39.9%. Such pattern was observed in experiments with both normal non-immune human serum and sera from people immunized with live tularemia vaccine. The latter indicates that opsonization of LPS by specific antibodies does not change its affinity to LBP. The observed more efficient binding of avirulent strain R-LPS to LBP is likely determines the more intensive host response directed to destruction and rapid elimination of the causative agent. At the same time, weak affinity of the vaccine and virulent strains S-LPS to LBP probably allows the bacterium to avoid activation of host defense mechanisms thus contributing to its long-term persistence in microorganism and development of specific immunity against tularemia.     

Prior Inoculation with Type B Strains of Francisella tularensis Provides Partial Protection against Virulent Type A Strains in Cottontail Rabbits

Francisella tularensis is a highly virulent bacterium that is capable of causing severe disease (tularemia) in a wide range of species. This organism is characterized into two distinct subspecies: tularensis (type A) and holarctica (type B) which vary in several crucial ways, with some type A strains having been found to be considerably more virulent in humans and laboratory animals. Cottontail rabbits have been widely implicated as a reservoir species for this subspecies; however, experimental inoculation in our laboratory revealed type A organisms to be highly virulent, resulting in 100% mortality following challenge with 50–100 organisms. Inoculation of cottontail rabbits with the same number of organisms from type B strains of bacteria was found to be rarely lethal and to result in a robust humoral immune response. The objective of this study was to characterize the protection afforded by a prior challenge with type B strains against a later inoculation with a type A strain in North American cottontail rabbits (Sylvilagus spp). Previous infection with a type B strain of organism was found to lengthen survival time and in some cases prevent death following inoculation with a type A2 strain of F. tularensis. In contrast, inoculation of a type A1b strain was uniformly lethal in cottontail rabbits irrespective of a prior type B inoculation. These findings provide important insight about the role cottontail rabbits may play in environmental maintenance and transmission of this organism.     

Comparative proteome analysis of fractions enriched for membrane-associated proteins from Francisella tularensis subsp. tularensis and F. tularensis subsp. holarctica strains

The facultative intracellular pathogen Francisella tularensis is the causative agent of the serious infectious disease tularemia. Despite intensive research, the virulence factors and pathogenetic mechanisms remain largely unknown. To identify novel putative virulence factors, we carried out a comparative proteome analysis of fractions enriched for membrane-associated proteins isolated from the highly virulent subspecies tularensis strain SCHU S4 and three representatives of subspecies holarctica of different virulence including the live vaccine strain. We identified six proteins uniquely expressed and four proteins expressed at significantly higher levels by SCHU S4 compared to the ssp. holarctica strains. Four other protein spots represented mass and charge variants and seven spots were charge variants of proteins occurring in the ssp. holarctica strains. The genes encoding proteins of particular interest were examined by sequencing in order to confirm and explain the findings of the proteome analysis. Our studies suggest that the subspecies tularensis-specific proteins represent novel potential virulence factors.     

Pseudorabies: experimental studies in raccoons with different virus strains

Raccoons (Procyon lotor) were infected by the nasal/oral route with as little as 10(2) plaque forming units (PFU) of pseudorabies virus (PrV). There was no apparent difference in the susceptibility of raccoons to infection with either of two virulent field strains or with the naturally avirulent K strain which has been used in modified live virus vaccines. Each of these three viruses was transmitted by contact to uninfected raccoons. All raccoons that were infected with virulent field strains died; however only two of 11 (18%) raccoons that were infected with the K strain died. One of four raccoons that survived infection with the K strain survived superinfection with virulent virus. This finding was significant because it could be a mechanism by which virulent PrV can be introduced and persist in the raccoon population. The possibility of this event occurring is increasing because of the widespread prevalence of PrV and the use of modified live virus vaccines for controlling clinical pseudorabies in swine. Virus neutralizing activity was found in five of 47 serums collected from raccoons that were trapped in PrV endemic areas. This observation implies that a herpesvirus, possibly PrV, may be present in the wild raccoon population.     

Effects of alpha-chlorohydrin on the male reproductive tissues of the Polynesian rat,Rattus exulans

Abstract

Doses of α-chlorohydrin (‘Epibloc’) were administered by gavage to mature male Polynesian rats (Rattus exulans) at 100, 200, and 300 mg per kg body weight. Animals that survived were sacrificed either 1 day or 7 days later for assessment of epididymal and testicular cytology and sperm viability. Two of 10 animals died 6 days after treatment with 100 mg/kg; 1/6 died within 24 h of treatment with 200 mg/kg, though 6/10 died when left for 7 days; 300 mg/kg was lethal to all 3 rats tested. After 1 day, microscopic lesions were observed in the Initial Segment of the epididymis of 4/6 rats dosed with 100 mg/kg and in all 5 of the 200 mg/kg group; however, in only one animal at the higher dose level was the damage severe enough to cause epithelial exfoliation and potential blockage of the lumen. In all the animals that survived for 7 days testicular and epididymal cytology were normal, and viable spermatozoa were present at all levels of the tract. Autopsies revealed no evidence of gross epididymal lesions in any of the animals that died from the drug. We conclude that although α-chlorohydrin causes minor lesions in the epididymis of this feral species, the damage appears to be reversible in animals that survive an acute dose, and the drug cannot be considered an effective chemosterilant, as distinct from a poison.     

Immune response of the prawn, Macrobrachium rosenbergii, to bacterial infection

Serum agglutinins of Macrobrachium rosenbergii found in normal serum were reactive toward eight bacterial species and type A human red blood cells. Absorption studies indicated the ability of the agglutinins to distinguish between different bacterial species as well as between certain bacteria and red blood cells. Agglutinin titers were approximately the same for the bacteria, whereas those for red blood cells were significantly higher. A virulent strain of Vibrio anguillarum was used in infectivity experiments. An LD₅₀ value was determined between 5 × 10⁶ and 10⁷ cells/animal, and an attempt was made to immunize the animals using formalin-killed cells. The animals did not respond to the vaccination, as there was neither an increase in the level of circulating agglutinins nor the LD₅₀ level 6 days after injection. Structural and functional traits of serum agglutinins are markedly different from vertebrate antibodies.     

Mapping of immunoreactive antigens of Francisella tularensis live vaccine strain

Francisella tularensis subsp. holarctica is the common causal agent of tularemia in Europe. Besides clinical signs, the diagnosis of the disease mostly depends on serological tests. To date, there is a lack of information about the F. tularensis antigens that induce antibody response. Therefore, we have started comprehensive mapping of immunoreactive antigens using the attenuated live vaccine strain of F. tularensis LVS originating from the European virulent strain. For this purpose, the immunoreactivity of sera collected from patients suffering from tularemia, together with the control sera of patients with Lyme disease and healthy blood donors, were examined by means of one-dimensional and two-dimensional immunoblotting. Furthermore, whole cell bacterial lysates, isolated integral membrane proteins and basic proteins were exploited as antigens. By this approach more than 80 different immunorelevant antigens were detected. Most of them came from whole cell bacterial lysate and integral membrane proteins. Conversely, only a negligible reaction was found in the case of basic proteins. Forty-five spots were further selected for mass spectrometric analyses and 22 of them were annotated. Among the spots that provided characteristic reactions with sera from patients with tularemia, 60 kDa and 10 kDa chaperonins that occurred in several charge and mass variants, predominated.     

Deletion of IglH in virulent Francisella tularensis subsp. holarctica FSC200 strain results in attenuation and provides protection against the challenge with the parental strain

Francisella tularensis, the causative agent of tularemia, is a highly infectious intracellular pathogen with no licensed vaccine available today. The recent search for genome sequences involved in F. tularensis virulence mechanisms led to the identification of the 30-kb region defined as a Francisella pathogenicity island (FPI). In our previous iTRAQ study we described the concerted upregulation of some FPI proteins in different F. tularensis strains cultivated under stress conditions. Among them we identified the IglH protein whose role in Francisella virulence has not been characterized yet. In this work we deleted the iglH gene in a European clinical isolate of F. tularensis subsp. holarctica FSC200. We showed that the iglH gene is necessary for intracellular growth and escape of F. tularensis from phagosomes. We also showed that the iglH mutant is avirulent in a mouse model of infection and persists in the organs for about three weeks after infection. Importantly, mice vaccinated by infection with the iglH mutant were protected against subcutaneous challenge with the fully virulent parental FSC200 strain. This is the first report of a defined subsp. holarctica FPI deletion strain that provides protective immunity against subsequent subcutaneous challenge with a virulent isolate of F. tularensis subsp. holarctica.