Vector infection determinants of Venezuelan equine encephalitis virus reside within the E2 envelope glycoprotein

Epizootic subtype IAB and IC Venezuelan equine encephalitis viruses (VEEV) readily infect the epizootic mosquito vector Aedes taeniorhynchus. The inability of enzootic subtype IE viruses to infect this mosquito species provides a model system for the identification of natural viral determinants of vector infectivity. To map mosquito infection determinants, reciprocal chimeric viruses generated from epizootic subtype IAB and enzootic IE VEEV were tested for mosquito infectivity. Chimeras containing the IAB epizootic structural gene region and, more specifically, the IAB PE2 envelope glycoprotein E2 precursor gene demonstrated an efficient infection phenotype. Introduction of the PE2 gene from an enzootic subtype ID virus into an epizootic IAB or IC genetic backbone resulted in lower infection rates than those of the epizootic parent. The finding that the E2 envelope glycoprotein, the site of epitopes that define the enzootic and epizootic subtypes, also encodes mosquito infection determinants suggests that selection for efficient infection of epizootic mosquito vectors may mediate VEE emergence.     

Bovine Respiratory Syncytial Virus

A large epizootic of an acute respiratory disease of cattle occurred in Japan during the months from October 1968 to May 1969. A virus was recovered in primary cultures of calf kidney and testicle cells from nasal swabs of affected cattle. Neutralization tests revealed the virus to be closely related to the Long strain of human respiratory syncytial virus. The virus induced cytopathic changes including the formation of syncytia and acidophilic-cytoplasmic inclusions in calf kidney and testicle cell cultures. A calf inoculated with the virus by the respiratory route developed an illness resembling the natural disease. Most cattle clinically diagnosed as having the disease showed significant rises of neutralizing antibody titer for the isolated virus, whereas none or only small fractions of those animals showed serological evidence for recent infection with bovine ephemeral fever virus, infectious bovine rhinotracheitis virus, Ibaraki virus, bovine diarrhea virus, bovine adenovirus Type 7 and parainfluenza virus Type 3. Neutralization tests on paired sera revealed a wide dissemination of the isolated virus among cattle in many areas of the country during the epizootic. All these findings leave no doubt that the epizootic was caused by bovine respiratory syncytial virus. This is the first study that ever shows the presence of infection of cattle with this virus in Japan.     

Rabies prognosis in western Siberia and the regulatory factors of the epizootic process

In this article the regulatory factors of the epizootic process are considered and the spatial-temporal prognostication of rabies infection in the region is proposed on the basis of data on rabies morbidity among animals, the purchase of skins of carnivorous animals for 20-25 years, virological experiments on wild animals, calculation of the number of carnivores and small mammals, as meteorological observations. The study has shown that a variety of animal species serving as hosts for the virus and its population differences contribute to the stable existence of the infection. Rabies morbidity has been found to be positively linked with its preceding level, the number of wild animals, the height and hardness of the snow cover and negatively with the number of small mammals.     

Manifestation of a laboratory epizootic of rabbit pox by non-specific stimuli

Summary An epizootic of rabbit pox among laboratory rabbits is described. The animals were probably infected by neurovaccinia used in laboratory experiments. The disease appeared after intracerebral inoculation of cerebrospinal fluid from patients suffering from various disorders of the central nervous system, which indicates, that non-specific stimuli may give rise to a clinical manifestation of a latent infection, evidence of which was obtained experimentally. The virus isolated possessed the pathogenic and immunologic properties of neurovaccinia virus.     

A naturally occurring epizootic caused by Sendai virus in breeding and aging rodent colonies. I. Infection in the mouse.

An acute Sendai virus epizootic occurred simultaneously in a breeding colony, in experimental and stock animal rooms, and in a colony of aging mice. During the 2-month period that the infection was at its maximum, death rates were approximately doubled. In some strains, the preweanling death rate reached 100%. RFM and BALB/c mice were most susceptible and NZB mice least susceptible. The mortality during the period of Sendai virus infection was increased for most strains and age groups except for the oldest female RFM and NZB mice. Death rates during the epizootic were lowest in young adult mice (greater than 10 weeks of age) and highest in the very young mice (less than 10 weeks of age) and in the oldest male and the moderately aged female mice. Although a substantial number of older mice died during the epizootic, examination of the age-specific death rates indicated that the increase in deaths remained relatively constant for all ages over 10 weeks. This showed that the older mice were not more susceptible to Sendai virus infection. As a sequela of the epizootic, focal chronic pneumonia was found in 10-40% of the mice coming to necropsy even 1 year later.     

Resistance to Alpha/Beta Interferons Correlates with the Epizootic and Virulence Potential of Venezuelan Equine Encephalitis Viruses and Is Determined by the 5′ Noncoding Region and Glycoproteins

We compared the alpha/beta interferon (IFN-α/β) sensitivities of the TC-83 vaccine strain and 24 enzootic and epizootic Venezuelan equine encephalitis (VEE) isolates. The IFN-resistant or -sensitive phenotype correlated well with epizootic or enzootic potential. IFN-α/β resistance of Trinidad donkey (TRD) virus correlated with virulence determinants in the 5′ noncoding region and glycoproteins. Infection of mice lacking a functional IFN system with the IFN-sensitive TC-83 virus resulted in disease equivalent to that produced by the virulent, IFN-resistant TRD virus, further demonstrating that IFN resistance contributes to VEE virus virulence and is a biological marker of epizootic potential.     

Molecular epizootiology and evolution of vesicular stomatitis virus New Jersey.

Vesicular stomatitis virus (VSV) has been shown previously to be capable of undergoing rapid mutational change during sequential experimental infections in various tissue culture cell systems (J. Holland, K. Spindler, F. Horodyski, E. Grabau, S. Nichol, and S. Vandepol, Science 215:1577-1585, 1982). The present study was undertaken to determine the degree of genetic diversity and evolution of the virus under natural infection conditions and to gain insight into the epizootiology of the disease. Between 1982 and 1985, numerous outbreaks of VSV of the New Jersey serotype were reported throughout regions of the United States and Mexico. A T1 RNase fingerprint analysis was performed on the RNA genomes of 43 virus isolates from areas of epizootic and enzootic virus activity. This indicates that virus populations were genetically relatively homogeneous within successive U.S. virus epizootics. The data included virus isolates from different epizootic stages, geographical locations, host animals, and host lesion sites. In contrast, only distant genome RNA T1 fingerprint similarities were observed among viruses of the different U.S. epizootics. However, Mexican viruses isolated before or concurrent with U.S. epizootics had very similar RNA genome fingerprints, suggesting that Mexico may have been the possible origin of virus initiating recent U.S. VSV New Jersey outbreaks. Comparison of T1 fingerprints of viruses with enzootic disease areas revealed a greater extent of virus genetic diversity in these areas relative to that observed in epizootic areas. The evolutionary significance of these findings and their relationship to experimental data on VSV evolution are discussed.     

Did Vaccination Slow the Spread of Bluetongue in France?

Vaccination is one of the most efficient ways to control the spread of infectious diseases. Simulations are now widely used to assess how vaccination can limit disease spread as well as mitigate morbidity or mortality in susceptible populations. However, field studies investigating how much vaccines decrease the velocity of epizootic wave-fronts during outbreaks are rare. This study aimed at investigating the effect of vaccination on the propagation of bluetongue, a vector-borne disease of ruminants. We used data from the 2008 bluetongue virus serotype 1 (BTV-1) epizootic of southwest France. As the virus was newly introduced in this area, natural immunity of livestock was absent. This allowed determination of the role of vaccination in changing the velocity of bluetongue spread while accounting for environmental factors that possibly influenced it. The average estimated velocity across the country despite restriction on animal movements was 5.4 km/day, which is very similar to the velocity of spread of the bluetongue virus serotype 8 epizootic in France also estimated in a context of restrictions on animal movements. Vaccination significantly reduced the propagation velocity of BTV-1. In comparison to municipalities with no vaccine coverage, the velocity of BTV-1 spread decreased by 1.7 km/day in municipalities with immunized animals. For the first time, the effect of vaccination has been quantified using data from a real epizootic whilst accounting for environmental factors known to modify the velocity of bluetongue spread. Our findings emphasize the importance of vaccination in limiting disease spread across natural landscape. Finally, environmental factors, specifically those related to vector abundance and activity, were found to be good predictors of the velocity of BTV-1 spread, indicating that these variables need to be adequately accounted for when evaluating the role of vaccination on bluetongue spread.     

Current state of epidemiologic surveillance of natural foci of plague of North Caucasus

Information on the epizootic situation in plague in the natural foci of North Caucasus and on the influence of a number of anthropogenic and natural factors on this situation is presented. The data given in this work indicate that under the conditions of the anthropogenic transformation of landscapes the character of the epizootic manifestations of plague is changed and new factors, capable of aggravating epidemiological situation, appear. In addition, some other factors must be considered, such as the insufficient financing of reliable field surveys at present, the impossibility of making reliable epizootological studies due to causes of the social character (armed conflicts), thus making it impossible to evaluate, with a sufficient degree of reliability, the real epizootic state of a number of territories and, therefore, the risk of human infection. In this connection the necessity to carefully plan prophylactic measures and measures aimed at the localization and liquidation of the probable foci of infection arises.     

Characterization of the H5N1 influenza virus isolated during an outbreak among wild birds in Russia (Tuva Republic) in 2010

The study of basic biological properties of H5N1 subtype strain isolated during an outbreak among wild birds in Russia in 2010 was presented. The study was carried out using conventional methods according to the WHO recommendations. H5N1 influenza virus isolated in Siberia belonged to clade 2.3.2 of the hemagglutinin gene; the phylogenetic analysis was performed. The antigenic characteristics and the basic genetic markers of biological properties were studied. It was shown that all strains were highly pathogenic for chickens and white mice. Thus, it was shown that in Russia in the 2010 H5N1 virus phylogenetically closely related to Asian variants caused epizootic among wild birds. The potential danger of this variant of the virus for humans was confirmed by different methods. We discussed the possibility of formation of H5N1 influenza natural focus.     

Genetic and anatomic determinants of enzootic Venezuelan equine encephalitis virus infection of Culex (Melanoconion) taeniopus

Venezuelan equine encephalitis (VEE) is a re-emerging, mosquito-borne viral disease with the potential to cause fatal encephalitis in both humans and equids. Recently, detection of endemic VEE caused by enzootic strains has escalated in Mexico, Peru, Bolivia, Colombia and Ecuador, emphasizing the importance of understanding the enzootic transmission cycle of the etiologic agent, VEE virus (VEEV). The majority of work examining the viral determinants of vector infection has been performed in the epizootic mosquito vector, Aedes (Ochlerotatus) taeniorhynchus. Based on the fundamental differences between the epizootic and enzootic cycles, we hypothesized that the virus-vector interaction of the enzootic cycle is fundamentally different from that of the epizootic model. We therefore examined the determinants for VEEV IE infection in the enzootic vector, Culex (Melanoconion) taeniopus, and determined the number and susceptibility of midgut epithelial cells initially infected and their distribution compared to the epizootic virus-vector interaction. Using chimeric viruses, we demonstrated that the determinants of infection for the enzootic vector are different than those observed for the epizootic vector. Similarly, we showed that, unlike A. taeniorhynchus infection with subtype IC VEEV, C. taeniopus does not have a limited subpopulation of midgut cells susceptible to subtype IE VEEV. These findings support the hypothesis that the enzootic VEEV relationship with C. taeniopus differs from the epizootic virus-vector interaction in that the determinants appear to be found in both the nonstructural and structural regions, and initial midgut infection is not limited to a small population of susceptible cells.     

Epizootic situation and prospectives of rabies control among wild animals in the South of Western Siberia

The analysis of the epizootic situation in rabies in the south of Western Siberia during the period of 1990-1999 was carried out on the basis of the analysis of statistical data, field observations and virological investigations. Foxes were found to be the principle virus host and in the steppe areas they probably shared this role with corsac foxes. No data on other orders of mammals taking part in the virus circulation were obtained. The foxes population structure of the territory of the above-mentioned region were studied. The epizootic process was shown to have a cyclic character which corresponds to the models, proposed by foreign researchers for Western Europe. The effectiveness of different methods used for the control of rabies among wild animals was considered. As shown by this study, due to the population ecology of foxes and corsac foxes on the above-mentioned territory the best effect should be expected from measures aimed at frequency limitation of these animals, and not from vaccinal prophylaxis. As an alternative, the possibility of non-interference in the circulation of the virus within the limits of the natural focus in combination with timely measures for the protection of domestic and agricultural animals, as well as humans, from infection was considered.     

中国对虾呼肠孤样病毒感染的电镜观察

呼肠孤病毒在自然界广泛存在于脊椎动物、无脊椎动物和植物中.水产动物呼肠孤病毒感染曾见于鱼、贝、蟹.近几年随着对对虾病毒病害研究的日益重视,在对虾中也发现呼肠孤病毒的感染.Tsing等[1]最早于1987年在法国南部养殖的日本对虾(P.japonicus)幼虾中发现呼肠孤病毒感染.Krol等[2]于1990年在试验感染的南美白对虾(P.vannamei)中发现呼肠孤样病毒与对虾杆状病毒混合感染.中国大陆养殖的中国对虾自1993年全面暴发流行病以来,许多学者进行了对虾流行病的病原学、流行病学及诊断和防治方法的研究,部分学者曾在中国对虾(P.chinensis)中观察到呼肠孤样病毒颗粒[3],但未报道较详细的电子显微镜观察资料.     

An encephalomyocarditis virus epizootic in a baboon colony.

Approximately 80 baboon deaths were caused by encephalomyocarditis virus (EMCV) infection in a 3060 member research and production colony. The epizootic extended over a 9-month period and occurred in baboons ranging from 1 day to 22 years of age. Acute death was the most common history. When clinical disease was detected, it was characterized by labored respiration associated with acute congestive heart failure. The salient necropsy findings were pulmonary congestion and edema, hydropericardium, hydrothorax, ascites, lymph node and splenic hypertrophy, and pale white-to-tan mottled hearts. The most significant histologic lesion was nonsuppurative necrotizing myocarditis. Placental infection with fetal loss occurred. Diagnosis was confirmed by light microscopy, transmission electron microscopy, virus culture, and serology. Rarely, EMCV-induced antibody persisted in surviving baboons for more than 24 months. EMCV-infected feral rats were the probable source of the virus and their control stopped the epizootic. No EMCV neutralizing antibody was detected in colony support personnel or chimpanzees.     

Importance of ambient saturation deficits in an epizootic of the fungus Neozygites floridana in cassava green mites (Mononychellus tanajoa)

The mite-pathogenic fungus Neozygites floridana Fisher (Entomophthorales: Neozygitaceae) is considered to have potential for the biological control of the cassava green mite, Mononychellus tanajoa (Bondar). However, its activity is sporadic and laboratory data suggest a strong dependence on night-time saturation deficits for transmission. We report on an epizootic of this fungus in a mite population in northeastern Brazil. During the epizootic, host populations appeared to be limited by a combination of the pathogen and a predatory mite Neoseiulus idaeus (Acari: Phytoseiidae). When temperatures increased, the epizootic finished and the host population began to grow. Abiotic conditions could not explain the variation in host mortality following pickup of infective propagules in this epizootic. However, night-time saturation did help to explain the variation in transmission from infective cadavers to newly killed hosts. This supports laboratory observations that horizontal transmission between hosts is determined mainly by saturation deficits, while the process of infection is little affected by abiotic conditions. A further field observation was the near-absence of resting spores in dead mites (ca. 0.1% of cadavers), suggesting that the pathogen population was unsuccessful in producing inoculum to infect future M. tanajoa populations. The implications are that this pathogen will only be effective as a biological control agent in periods of high relative humidity, and establishment in new areas may be limited by resting spore formation. This revised version was published online in July 2006 with corrections to the Cover Date.     

Excretion of B virus in monkeys and evidence of genital infection

3 different types of observation all demonstrated that B virus (Herpesvirus simiae) infection of monkeys was not confined to the mouth but was also a genital infection. (1) Latent B virus was reactivated in a seropositive female monkey, which was immunosuppressed with antilymphocyte globulin, and infectious virus was excreted in the genital tract. (2) During an epizootic in a breeding colony, B virus was isolated from 4 genital and 3 oral sites as well as from a skin lesion. (3) In cultures of sensory nerve ganglia taken from seropositive monkeys, B virus was recovered more frequently from ganglia subserving the genital region than the oral region.     

A model of HIV-1 pathogenesis that includes an intracellular delay

Mathematical modeling combined with experimental measurements have yielded important insights into HIV-1 pathogenesis. For example, data from experiments in which HIV-infected patients are given potent antiretroviral drugs that perturb the infection process have been used to estimate kinetic parameters underlying HIV infection. Many of the models used to analyze data have assumed drug treatments to be completely efficacious and that upon infection a cell instantly begins producing virus. We consider a model that allows for less then perfect drug effects and which includes a delay in the initiation of virus production. We present detailed analysis of this delay differential equation model and compare the results to a model without delay. Our analysis shows that when drug efficacy is less than 100%, as may be the case in vivo, the predicted rate of decline in plasma virus concentration depends on three factors: the death rate of virus producing cells, the efficacy of therapy, and the length of the delay. Thus, previous estimates of infected cell loss rates can be improved upon by considering more realistic models of viral infection.     

A naturally occurring epizootic of simian agent 8 in the baboon

An epizootic of genital lesions was observed on baboons (four Papio sub-species) housed in two different outdoor breeding corrals. Serological analysis revealed strong prevalence of antibodies to Simian Agent 8 (SA8). This herpesvirus was subsequently recovered from skin lesions and identified by restriction endonuclease digestion of infected cell DNA. Observations of lesion type, frequency and location were suggestive of venereal transmission. The remarkable similarity between infection resulting from SA8 in baboons and herpes simplex virus in man suggests that the baboon is an excellent model in which to study genital herpes virus transmission and infection.     

Estimating the Potential Impact of Canine Distemper Virus on the Amur Tiger Population (Panthera tigris altaica) in Russia

Lethal infections with canine distemper virus (CDV) have recently been diagnosed in Amur tigers (Panthera tigris altaica), but long-term implications for the population are unknown. This study evaluates the potential impact of CDV on a key tiger population in Sikhote-Alin Biosphere Zapovednik (SABZ), and assesses how CDV might influence the extinction potential of other tiger populations of varying sizes. An individual-based stochastic, SIRD (susceptible-infected-recovered/dead) model was used to simulate infection through predation of infected domestic dogs, and/or wild carnivores, and direct tiger-to-tiger transmission. CDV prevalence and effective contact based on published and observed data was used to define plausible low- and high-risk infection scenarios. CDV infection increased the 50-year extinction probability of tigers in SABZ by 6.3% to 55.8% compared to a control population, depending on risk scenario. The most significant factors influencing model outcome were virus prevalence in the reservoir population(s) and its effective contact rate with tigers. Adjustment of the mortality rate had a proportional impact, while inclusion of epizootic infection waves had negligible additional impact. Small populations were found to be disproportionately vulnerable to extinction through CDV infection. The 50-year extinction risk in populations consisting of 25 individuals was 1.65 times greater when CDV was present than that of control populations. The effects of density dependence do not protect an endangered population from the impacts of a multi-host pathogen, such as CDV, where they coexist with an abundant reservoir presenting a persistent threat. Awareness of CDV is a critical component of a successful tiger conservation management policy.     

Human lung carcinoma (A-549) continuing cell line and human endothelial (ECV-304) continuing cell line responses to the influenza virus at different multiplicities of infection

The course of infection upon virus entry into the cell depends not only on the biological characteristics of the cells and of the virus itself, but also on the intensity of the cell infection by the virus, i.e., on the multiplicity of infection. The purpose of our work was to perform a comparative study of the responses of two human cell lines, the lung carcinoma cell line A-549 and the endothelium cell line ECV-304, to the infection with the influenza virus A at different multiplicities of infection. At the first passage, both cell lines responded by enhancement of proliferation and apoptosis induction only to the low doses of influenza virus (ID 1–10). In A-49 cells, the stimulatory effect of the low virus doses was observed 1–2 days earlier than in ECV-304 cells. Enhanced proliferation was observed in both cell lines from the second to the fourth passages, when cells were infected with higher virus doses (ID 100 and 1000). In addition, the response of the A-549 cells to low doses of the H3N2 strain of the influenza virus A depended on the virus propagation conditions—namely, no enhancement of cell proliferation was observed in response to the infection with the virus propagating in chicken embryonated eggs, in contrast to infection with the virus that propagated in cell culture. Immunocytochemistry of A-549 cells has demonstrated that, on the third day after infection, there could be observed a change (in the dose-dependent manner) in the intracellular localization of p53 and cyclin A, proteins involved in the cell cycle progression. At the low virus dose, cyclin A was predominantly detected in the nuclei (63%), while at the high virus dose it was p53 (54%), which was predominantly detected in this cellular compartment, this observation confirming that stimulation of cell proliferation in the case of very low multiplicity of infection and cell division arrest takes place in the case of high multiplicity of influenza virus infection. The study of the influenza virus A reproduction in A-549 and ECV-304 cells using a whole number of virology techniques showed low sensitivity of these cells to the influenza virus, which manifested in the gradual decrease in the viral RNA expression and the impairment of mature viral particles assembly during several passages. Therefore, the decrease in the multiplicity of infection is associated in the A-549 and ECV-304 cells with impairment of production of mature virus particles or certain virus protein synthesis, which is accompanied by cell proliferation enhancement and apoptosis induction. As a result of the comparative study of the two cell lines (A-549 and ECV-304) upon infection with different doses of influenza virus A, we have revealed common principles and specific features indicating the effects of the biological properties of the viruses and cells, as well as of the multiplicity of infection on the course of virus infection.