Expression of recombinant Florida clade 2 hemagglutinin in baculovirus expression system: A step for subunit vaccine development against H3N8 equine influenza virus.

Background: Equine influenza (EI) is a transmissible viral respiratory sickness of the Equidae family. Two viruses, H7N7 and H3N8 caused EI; however, H7N7 has not been detected for decades. H3N8 has circulated and bifurcated into Eurasian and American lineages. The latter subsequently diversified into Kentucky, South America, and Florida sub-lineages. Florida clade 1 (FC1) and Florida clade 2 (FC2) strains are the only circulating EI viruses (EIVs) in the meantime. Immunization is considered the major means for the prevention and control of EI infection. Using disparate technologies and platforms, several vaccines have been developed and commercialized. According to the recommendations of the World Organization for Animal Health (WOAH), all commercial vaccines shall comprise representatives of both FC1 and FC2 strains. Unfortunately, most of the commercially available vaccines were not updated to incorporate a representative of FC2 strains. Aim: The purpose of this research was to develop a new EI vaccine candidate that incorporates the hemagglutinin (HA) antigen from the currently circulating FC2. Methods: In this study, we report the expression of the full-length recombinant HA gene of FC2 in the baculovirus expression system. Results: The HA recombinant protein has been proven to maintain its biological characteristics by hemadsorption (HAD) and hemagglutination tests. Moreover, using a reference-specific serum, the specificity of the HA has been confirmed through the implementation of immunoperoxidase and western immunoblotting assays. Conclusion: In conclusion, we report the expression of specific biologically active recombinant HA of FC2, which would act as a foundation for the generation of an updated EI subunit or virus vector vaccine candidates.

Detection of Equid Alphaherpesvirus 1 from Arabian Horses with different clinical presentations between 2016-2019 in Egypt.

Equid alphaherpesvirus 1 (EHV-1) is an important virus causing pathological disorders in horses. This highly contagious pathogen causes persistent outbreaks of upper respiratory tract infection, ocular affections, abortion, and neurological disorders with high mortality in Arabian horses in Egypt. The quick and accurate diagnosis is important to broaden our understanding about EHV-1 in the field, and to implicate stronger preventive, and control measures. Sixty-six Arabian horses from Cairo and Giza governorates were sampled from respiratory, abortigenic and neurological outbreaks over a period of 4 years. EHV-1 was diagnosed in these cases by immunohistochemistry using monoclonal antibody against EHV-1 glycoprotein B and molecular detection using gB, ORF33 specific real-time PCR. EHV-1 was detected in 25 cases, mostly from abortigenic outbreaks (14 abortions, 3 stillbirths, and two early neonatal deaths), in addition to 5 respiratory affections and single EHV-1 myeloencephalopathy. Molecular characterization revealed that the ORF33 sequences from this study were almost identical and closely related to the European EHV-1 strains. Furthermore, no difference in the amino acid sequences compared to previously published EHV-1 sequences from Egypt. The data in this study provides some insights about the prevalance of EHV-1 infection in Arabian horses, discusses EHV-1 diagnostic approaches, highlights the importance of accurate diagnosis and the importance of pregnant mare vaccination, and adds to the previous knowledge about EHV-1 in Egypt which may help in better controlling EHV-1 infections in the future.

A novel bivalent Pasteurellosis-RHD vaccine candidate adjuvanted with Montanide ISA70 protects rabbits from lethal challenge.

In the present study, a bivalent vaccine against Pasteurella multocida and rabbit hemorrhagic disease virus (RHDV) was formulated with Montanide™ ISA70 oil adjuvant (Seppic, Paris, France). Its efficacy was evaluated and compared to similar monovalent preparations and commercially available monovalent vaccines. White new Zeeland rabbit groups (n = 10) received 2 successive doses of the tested vaccines and were challenged 2 weeks after 2nd dose with Pasteurella multocida and RHDV or either pathogens according to their vaccination schedule. Challenged not-vaccinated group of rabbits (n = 10) was included as a control. The bivalent and monovalent ISA70 preparations were found stable, safe, sterile, pure and of low viscosity. Group 3 (GP3) which received bivalent vaccine showed the highest antibody geometric mean titers against Pasteurella multocida and RHDV evaluated by ELISA and hemagglutination inhibition (HI) respectively. Following virulent challenge; Gp3 rabbits were 90% protected from challenge over other groups that showed 80% protection. Detection of either pathogen in the livers of dead and euthanized rabbits had failed except for non-vaccinated controls. The bivalent vaccine candidate was fully protective. Immunization against both pathogens can be achieved by single vaccination.

Evaluating two approaches for using positive control in standardizing the avian influenza H5 reverse transcription recombinase polymerase amplification assay.

Highly pathogenic avian influenza H5N1 virus causes heavy losses in poultry farms worldwide. Molecular diagnostic techniques like RT-PCR and real-time RT-PCR are considered the gold standard for identification of H5 influenza viruses in clinical samples. These techniques are hampered by the need of well-equipped laboratories, large space requirement, and relatively long time-to-result. Recombinase polymerase amplification (RPA) assay represents an excellent alternative to PCR since it is more simple, rapid, economic, and portable. Reverse transcription RPA (RT-RPA) assay was recently developed for sensitive and specific detection of H5N1 virus in 6-10 min. To ensure the accuracy of the developed assay, two approaches for using a positive control were evaluated in this study. These approaches included: 1) all-in-one (internal positive control; IPC), 2) two-tubes-per-one-sample (external positive control; EPC). Sigma virus (SIGV) RNA and turkey mitochondrial DNA were tested as positive controls in both approaches. For all-in-one approach, both targets (H5 and IPC) were strongly inhibited. In contrast, very good amplification signals were obtained for the two types of EPC with no effect on the analytical sensitivity and specificity of H5 RT-RPA assay in two-tubes-per-one-sample approach. The performance of EPC-based H5 RT-RPA was further validated using 13 tracheal swabs. The results were compared to real-time RT-PCR and proved superior specificity in detecting H5N1 but not H5N8 viruses. Inclusion of EPC did not affect the aptitude of both assays in terms of sensitivity, specificity and reproducibility. In conclusion, the two-tubes-per-one-sample approach was more reliable to control the false negative results in H5 RT-RPA assay.