A perspective on equine infectious anemia with an emphasis on vector transmission and genetic analysis

Causes of equine perinatal mortality

The peripartum period is critical in equine medicine for maintaining healthy mares, and ensuring the delivery of healthy neonatal foals. The field of perinatal mortality in horses is continuously evolving, with several advances being recently made in causes of perinatal fetal and foal loss. This review details the main causes of perinatal loss in horses, through late pregnancy, parturition and the neonatal period. Recent advances in identification of infectious organisms and indicators of survival in neonatal foals will be discussed. Continued advances in reproductive and neonatal medicine will aid improved survival of foals through fewer pregnancy losses, and improved management of high-risk pregnancies and critically ill neonatal foals.

Identification of large genetic variations in the equine infectious anemia virus tat-gag genomic region

The aetiological agent of equine infectious anaemia (EIA) is the retrovirus equine infectious anemia virus (EIAV) that infects all members of the Equidae family. The EIA is widely disseminated in the Brazilian territory with a high seroprevalence in the Brazilian Pantanal and is mainly diagnosed using agar gel immunodiffusion (AGID). There are few complete EIAV genome sequences available in GenBank, which had an impact on molecular detection studies. In this study, we conducted molecular detection and sequencing of EIAV proviral DNA from Brazilian horses. We analysed the genomic region from exon 1 of tat to gag (tat-gag). Comparative serological tests, comprising AGID and two enzyme-linked immunosorbent assays (ELISAs), were also conducted. Of the 133 samples, 58 were positive in the tat-gag PCR, and 49 nucleotide sequences of 272 bp were obtained. Using this developed tat-gag PCR EIAV proviral DNA was detected in 7% of the AGID-negative samples and 26% of the AGID-negative samples were positive in at least one of the ELISA tests used. Using phylogenetic analysis, the Brazilian Pantanal EIAV sequences grouped in a different clade of EIAV sequences from other countries. Thus, the EIAV sequences can contribute to the knowledge of the tat-gag genomic region in the circulating viruses in the Brazilian Pantanal, in addition to providing new information about the genetic diversity. In addition, the serological results demonstrate the greater sensitivity of the ELISAs used in this study compared to AGID for EIA diagnosis.

A comparison of the Nzi, Horse Pal® and Bite-Lite® H-traps and selected baits for the collection of adult Tabanidae in Florida and North Carolina

Despite the veterinary and medical importance of horse flies, deer flies, and yellow flies, only a few trap types have been evaluated to monitor adult population dynamics. Currently, three trap types are being utilized (H-trap, Horse Pal® (HP), and Nzi trap), but no head-to-head comparisons have been reported. Thus, we conducted comparative trapping studies in Florida and North Carolina. At two study sites in Florida, the efficacy of all three trap types was compared, but only the H-trap and HP were compared in North Carolina. Although trap type was significant at all sites, the trap type which caught the most specimens was not the same. In Florida at the Lower Suwannee Wildlife Refuge (LSWR) site, the H-trap caught the most specimens (2,006), followed in decreasing order by Nzi (938) and HP (541). At the Cedar Ridge Ranch site, the Nzi caught significantly more specimens (1,439) than the H-trap (215) and HP (161), which were not significantly different from each other. In North Carolina, the H-trap caught approximately twice as many specimens as the HP (1,458 vs 720). These trap comparison studies were followed up by a study on the efficacy of various bait combinations: (No Bait (NB), dry ice only (DI), Trap Tech Lure (TTL) only, and DI + TTL), which was conducted only at the two Florida sites with H-traps. At both sites, bait combinations significantly affected trap collections. One pattern (DI +TTL > DI > TTL > NB) was recorded at the LSWR, while at the Cedar River Ranch the pattern was DI > DI +TTL > TTL > NB. Our data showed that trap type and bait combination significantly influence overall adult tabanid abundance as well as individual species composition.

Transmission of pathogens by Stomoxys flies (Diptera, Muscidae): a review

Stomoxys flies are mechanical vectors of pathogens present in the blood and skin of their animal hosts, especially livestock, but occasionally humans. In livestock, their direct effects are disturbance, skin lesions, reduction of food intake, stress, blood loss, and a global immunosuppressive effect. They also induce the gathering of animals for mutual protection; meanwhile they favor development of pathogens in the hosts and their transmission. Their indirect effect is the mechanical transmission of pathogens. In case of interrupted feeding, Stomoxys can re-start their blood meal on another host. When injecting saliva prior to blood-sucking, they can inoculate some infected blood remaining on their mouthparts. Beside this immediate transmission, it was observed that Stomoxys may keep some blood in their crop, which offers a friendly environment for pathogens that could be regurgitated during the next blood meal; thus a delayed transmission by Stomoxys seems possible. Such a mechanism has a considerable epidemiological impact since it allows inter-herd transmission of pathogens. Equine infectious anemia, African swine fever, West Nile, and Rift Valley viruses are known to be transmitted by Stomoxys, while others are suspected. Rickettsia (Anaplasma, Coxiella), other bacteria and parasites (Trypanosoma spp., Besnoitia spp.) are also transmitted by Stomoxys. Finally, Stomoxys was also found to act as an intermediate host of the helminth Habronema microstoma and may be involved in the transmission of some Onchocerca and Dirofilaria species. Being cosmopolite, Stomoxys calcitrans might have a worldwide and greater impact than previously thought on animal and human pathogen transmission.

Important mammalian veterinary viral immunodiseases and their control

This paper offers an overview of important veterinary viral diseases of mammals stemming from aberrant immune response. Diseases reviewed comprise those due to lentiviruses of equine infectious anaemia, visna/maedi and caprine arthritis encephalitis and feline immunodeficiency. Diseases caused by viruses of feline infectious peritonitis, feline leukaemia, canine distemper and aquatic counterparts, Aleutian disease and malignant catarrhal fever. We also consider prospects of immunoprophylaxis for the diseases and briefly other control measures. It should be realised that the outlook for effective vaccines for many of the diseases is remote. This paper describes the current status of vaccine research and the difficulties encountered during their development.

Recombinant envelope protein (rgp90) ELISA for equine infectious anemia virus provides comparable results to the agar gel immunodiffusion

Equine infectious anemia (EIA) is an important viral infection affecting horses worldwide. The course of infection is accompanied generally by three characteristic stages: acute, chronic and inapparent. There is no effective EIA vaccine or treatment, and the control of the disease is based currently on identification of EIAV inapparent carriers by laboratory tests. Recombinant envelope protein (rgp90) was expressed in Escherichia coli and evaluated via enzyme-linked immunosorbent assay (ELISA). There was an excellent agreement (95.42%) between the ELISA results using rgp90 and agar gel immunodiffusion test results. AGID is considered the "gold-standard" serologic test for equine infectious anemia (EIA). After 1160 serum samples were tested, the relative sensitivity and specificity of the ELISA were 96.1% and 96.4%, respectively. Moreover, analysis diagnostic accuracy of the ELISA was performed. The ELISA proved robust. Furthermore, good reproducibility was observed for the negative controls and, positive controls for all plates tested.

Network simulation modeling of equine infectious anemia in the non-racehorse population in Japan

An equine infectious anemia (EIA) transmission model was developed by constructing a network structure of horse movement patterns in a non-racehorse population. This model was then used to evaluate the effectiveness and efficiency of several EIA surveillance strategies. Because EIA had not been detected in Japan since 1993, it was appropriate to review the current surveillance strategy, which aims to eradicate EIA by intensive testing, and to consider alternative strategies suitable for the current EIA status in Japan. The non-racehorse population was divided into four sectors based on horse usage: the equestrian sector, private owner sector, exhibition sector, and fattening sector. To evaluate the risk of disease spread within and between sectors accompanied by horse movements, a stochastic individual-based network model was developed based on a previous survey of horse movement patterns. Surveillance parameters such as targeting sectors and frequency of testing were added into the model to compare surveillance strategies. The disease spread heterogeneously among sectors. Infection occurred mainly in the equestrian sector; the infection was less disseminated in other sectors. Therefore, we considered that the equestrian sector posed a higher risk of disease dissemination within and between sectors through horse movements. However, surveillance strategies targeting only the equestrian sector were not effective enough for early detection of the disease. Alternatively, targeting horses that moved permanently and those in the private owner sector in addition to the equestrian sector is recommended to achieve effectiveness equivalent to that of the current surveillance. In terms of surveillance efficacy, by increasing the testing interval (once yearly to once every 3 years), this testing scheme could reduce the number of tested horses to 44% of the current surveillance, while maintaining almost equivalent effectiveness. Intensive strategies targeting high-risk populations are considered to enhance effectiveness and efficiency of surveillance. The approach in this study may be helpful in the decision-making process that is involved in setting up strategies for risk-based surveillance.

Distribution of equine infectious anemia in horses in the north of Minas Gerais State, Brazil

The paper examines the prevalence of equine infectious anemia (EIA) in horse populations in the northern part (comprising 89 cities) of Minas Gerais State, Brazil, from January 2002 to December 2004. Data on 8,981 agar gel immunodiffusion test results from the region were used as input for a statistical and autoregressive analysis model to construct a city-level map of the distribution of EIA prevalence. The following EIA prevalence (P) levels were found: 49 cities with 0 < P < or = 0.5%, 26 with 0.5% < P < or = 1.5%, 10 with 1.5% < P < or = 5%, and 4 with 5% < P < or = 25%.

Cloning, expression, purification, and characterization of the major core protein (p26) from equine infectious anemia virus

The gene coding for the major core protein (p26) of the lentivirus equine infectious anemia virus (EIAV) was cloned from EIAV infected serum, expressed in E. coli, and the resultant protein purified to electrophoretic homogeneity. The protein was expressed in a soluble form and was purified by conventional protein separation methods. When analyzed by SDS-PAGE, under both reducing and non-reducing conditions, the purified protein migrated as a 26 kDa monomer. Recombinant p26 (rp26), therefore, does not contain any intermolecular disulfide bond. Gel filtration chromatography also indicated that the protein occurs as a monomer in solution. Labeling of free sulphydryl groups with [1-14C]iodoacetamide suggests that none of the three cysteine residues of rp26 is involved in intramolecular disulfide bonds. The circular dichroism spectrum of rp26 was consistent with the following assignment of secondary structure elements: 51% a-helix, 15% beta-turn, and 34% aperiodic. Fluorescencespectroscopy revealed that the three tryptophan residues in rp26 occupy two different environments. These data support the conclusion that the recombinant protein is folded into an ordered and probably native conformation. Immunoblotting and enzyme immunoassay with EIAV infected sera demonstrated that recombinant p26 protein may be useful for diagnostic purposes.

Enhanced sensitivity to neutralizing antibodies in a variant of equine infectious anemia virus is linked to amino acid substitutions in the surface unit envelope glycoprotein

Serial passage of the prototype (PR) cell-adapted Wyoming strain of equine infectious anemia virus (EIAV) in fetal donkey dermal (FDD) rather than fetal horse (designated fetal equine kidney [FEK]) cell cultures resulted in the generation of a variant virus strain which produced accelerated cytopathic effects in FDD cells and was 100- to 1,000-fold more sensitive to neutralizing antibodies than its parent. This neutralization-sensitive variant was designated the FDD strain. Although there were differences in glycosylation between the PR and FDD strains, passage of the FDD virus in FEK cells did not reduce its sensitivity to neutralizing antibody. Nucleotide sequencing of the region encoding the surface unit (SU) protein from the FDD strain revealed nine amino acid substitutions compared with the PR strain. Two of these substitutions resulted in changes in the polarity of charge, four caused the introduction of a charged residue, and three had no net change in charge. Nucleotide sequence analysis was extended to the region of the FDD virus genome encoding the extracellular domain of the transmembrane envelope glycoprotein (TM). Unlike the situation with the FDD virus coding region, there were minor variations in nucleotide sequence between individual molecular clones containing this region of the TM gene. Although each clone contained three nucleotide substitutions compared with the PR strain, only one of these was common to all, and this did not affect the amino acid content. Of the remaining two nucleotide substitutions, only one resulted in an amino acid change, and in each case, this change appeared to be conservative. To determine if amino acid substitutions in the SU protein of FDD cell-grown viruses were responsible for the enhanced sensitivity to neutralizing antibodies, chimeric viruses were constructed by using an infectious molecular clone of EIAV. These chimeric viruses contained all of the amino acid substitutions found in the FDD virus strain and were significantly more sensitive to neutralizing antibodies than viruses from the parental (PR) molecular clone. These results demonstrated that sensitivity to neutralizing antibodies in EIAV can be conferred by amino acid residues in the SU protein. However, such amino acid substitutions were not sufficient to enhance cytopathogenicity, as the chimeric viruses did not cause excessive degenererative effects in FDD cells, as was observed with the parental FDD virus strain.

Efficacy of inactivated whole-virus and subunit vaccines in preventing infection and disease caused by equine infectious anemia virus

We report here on a series of vaccine trials to evaluate the effectiveness of an inactivated equine infectious anemia virus (EIAV) whole-virus vaccine and of a subunit vaccine enriched in EIAV envelope glycoproteins. The inactivated vaccine protected 14 of 15 immunized ponies from infection after challenge with at least 10(5) 50% tissue culture-infective doses of the homologous prototype strain of EIAV. In contrast, it failed to prevent infection in any of 15 immunized ponies that were challenged with the heterologous PV strain. Levels of PV virus replication and the development of disease, however, were significantly reduced in 12 of the 15 ponies so challenged. The subunit vaccine prevented infection from homologous challenge in four of four ponies tested but failed to prevent infection in all four challenged with the PV strain. Two of the four subunit vaccinates had more severe symptoms of equine infectious anemia than nonimmunized ponies infected in parallel. Both vaccines stimulated EIAV-specific cell-mediated immunity. The in vitro lymphoproliferative response was shown to be mediated by T lymphocytes and appeared to be indistinguishable from that induced by EIAV infection. Significant differences were observed in the in vivo lymphocyte responses following challenge with the two virus strains. While peripheral blood mononuclear cells from the inactivated virus vaccinates were equally stimulated by both the prototype and PV strains, the subunit vaccinates challenged with PV exhibited lower levels of spontaneous proliferation and serine esterase activity. This diminished cellular response to PV was correlated with more severe clinical disease in the same ponies. These studies demonstrate for the first time that both an EIAV inactivated whole-virus vaccine and a viral envelope glycoprotein-based subunit vaccine can provide protection against rigorous challenge levels of homologous virus but are unable to protect against similar challenge levels of a heterologous virus. Moreover, the data demonstrate that protection can be achieved in the absence of detectable levels of virus-specific neutralizing antibody in the vaccine recipients at the time of virus challenge. While vaccine-induced virus-specific cell-mediated immune responses were detected, their role in conferring protection was not obvious. Nevertheless, protection from disease appeared to be correlated with the induction of high levels of serine esterase activity following challenge. A significant observation is that while the whole-virus vaccine was usually capable of preventing or markedly moderating disease in the PV-infected ponies, the subunit vaccine appeared to have a high potential to enhance the disease induced by PV infection.(ABSTRACT TRUNCATED AT 400 WORDS)

Comparative evaluation of the agar gel immunodiffusion test and two commercial ELISA kits for the serodiagnosis of equine infectious anemia

Selected sets of serum samples of horses were tested blindly in a comparative investigation for antibodies against Equine Infectious Anemia (EIA) virus. Three commercial kits were used, a well-established agar-gel immuno-diffusion kit which our laboratory has been using routinely for 14 years on one hand, a competitive ELISA kit (CELISA) and a non-competitive ELISA kit on the other hand. The American EIA Reference Laboratory in Ames cotested 56 serum samples with the same 3 products, with highest-level correlation, thereby ascertaining full dependability of our own results. Five EIA experts supplied us critically weak or doubtfully reacting serum samples of experimentally infected horses together with their own test results, by necessity limited to the then available AGID in most instances. A high degree of correlation was found between our and their AGID results. In our own laboratory good correlation was found between the AGID test and one lot of the CELISA product. Time of seroconversion was coincident in some experimentally infected horses, partly AGID, partly CELISA proved more sensitive. Another lot of the CELISA product deteriorated completely long before the warranted validity, an unpleasant finding experienced by many other laboratories alike. The non-competitive ELISA product showed unacceptable inter-lot differences, oscillation between positive and negative results on consecutive samples of one and the same horse, never reacted with the weak positive International Reference Serum, and one lot deteriorated well beyond its expiration date. We discuss our results with the background: high sensitivity versus false-positive horses and advocate to maintain at their present sensitivity levels the AGID and the CELISA tests and not to push them further, as would be technically possible.

Tabanids as vectors of disease agents

The Tabanidae are considered to be among the major Dipteran pests of man and animals worldwide, but this group is undoubtedly the least studied. There have been at least 137 genera and 4154 species of tabanids described to date. Yet, existing, active research programmes number, at most, 50 in systematics and distribution, 15 in economic entomology, and five in disease transmission. To redress the balance, Lane Foil discusses the entire spectrum of research on the transmission of infections by tabanids, both from the point of view of general factors affecting transmission dynamics, as well as the specific examination of candidate agents, from viruses to filaria.