Epidemiological and Phylogeographic Study of Equid Herpesviruses in Tunisia.

Equid herpesvirus (EHV) is a contagious viral disease affecting horses, causing illness characterized by respiratory symptoms, abortion and neurological disorders. It is common worldwide and causes severe economic losses to the equine industry. The present study was aimed at investigating the incidence of EHVs, the genetic characterization of Tunisian isolates and a spatiotemporal study, using 298 collected samples from diseased and clinically healthy horses. The global incidence of EHV infection was found to be about 71.81%. EHV2 and EHV5 were detected in 146 (48.99%) and 159 (53.35%) sampled horses, respectively. EHV1 was detected in 11 samples (3.69%); EHV4 was not detected. Co-infections with EHV1-EHV2, EHV1-EHV5 and EHV2-EHV5 were observed in 0.33%, 1.34% and 31.54% of tested horses, respectively. Phylogenetic analyses showed that gB of EHV2 and EHV5 displays high genetic diversity with a nucleotide sequence identity ranging from 88 to 100% for EHV2 and 97.5 to 100% for EHV5. Phylogeography suggested Iceland and USA as the most likely countries of origin of the Tunisian EHV2 and EHV5 isolates. These viruses detected in Tunisia seemed to be introduced in the 2000s. This first epidemiological and phylogeographic study is important for better knowledge of the evolution of equid herpesvirus infections in Tunisia.

Full-length genome sequencing of a very virulent infectious bursal disease virus isolated in Tunisia.

Infectious bursal disease (IBD), an acute, highly contagious, and immunosuppressive avian disease, is caused by infectious bursal disease virus (IBDV) and constitutes one of the main threats to the poultry industry, worldwide. This study was performed to isolate and characterize IBDV isolates circulating in Tunisia. Eleven collected bird samples were identified using an SYBR Green-based one-step real-time reverse transcriptase polymerase chain reaction. The full-length genome sequencing of 7 of the 11 IBDV isolates has been realized. VP2 gene data showed limited sequence variations for all the 7 tested samples. The few nucleotide changes were silent and the deduced amino acid sequences were identical with the exception of a unique and characteristic nonsilent mutation (C1203) detected for the TN37/19 isolate, with a change of amino acid (L) to (F) at position 401. In addition, the serine-rich heptapeptide SWSASGS, characteristic of virulent IBDV, as well the amino acid residues, conserved in most very virulent IBDV (vvIBDV) strains, were detected in all the Tunisian tested isolates. Nucleotide sequences of VP5 gene revealed the presence of 5 substitutions leading to changes in the amino acid sequences of the virus. Two of these mutations were unique and characteristic of the Tunisian isolates. Besides, the alternative AUG start codon, characteristic of vvIBDV, was observed in all obtained VP5 gene sequences. The Tunisian protein sequences of VP1 showed E242 and the TDN triplet at positions 145, 146, and 147, a motif specific of vvIBDV. Phylogenetic analyses of the 5 genes confirmed the sequence alignment results and showed that the Tunisian strains are closely related to the very virulent Algerian IBDV strains.

Molecular characterization of a unique variant of avian infectious bronchitis virus in Tunisia.

Avian infectious bronchitis virus (IBV) is responsible of significant economic losses for poultry industry around the world, through evolution of its pathogenicity, inadequacy of vaccines, and virus evasion. Such evasion is related to the unstable nature of its RNA, in particular the S glycoprotein encoding gene, which raises great challenges with regard to the control of the disease, along with the lack of proof reading mechanisms of the RNA polymerase. The emergence of new variants might be a reason for the endemic outbreaks that are being reported in Tunisia, in addition to poor vaccination techniques and ineffective prophylactic programs. In the present study, partial nucleotide sequences of the S1 glycoprotein gene and the 3'-untranslated region (UTR) of 2 Tunisian isolates, TN1011/16 and TN1012/16, identified in 2016, were determined. Specific mutations were found in S1 gene as well as in 3'UTR region. Phylogenetic analysis of the S1 nucleotide sequences showed that both isolates are closely related to the Algerian strains, and formed a common cluster within the genotype I. In addition, these isolates were non-recombinant ones, confirming that they are unique variants. Based on their S1 gene sequences, TN1011/16 and TN1012/16 strains were distant from the H120 vaccine strain, commercially used in Tunisia along with the variant vaccine 793B type (4/91). A comparison between nucleotide sequences of their 3'UTR region and S1 gene showed a difference in IBV classification. The obtained results have confirmed that the IBVsequence continues to drift and brings valuable information in relation with its evolution, vaccine development and better control of the disease.

Characterization of new variants of avian infectious bronchitis virus in Tunisia.

Three infectious bronchitis virus (IBV) strains, isolated from suspected Tunisian broiler flocks, were characterized as variant viruses using genotyping and serotyping techniques. They were compared with commonly used vaccine strains, including 793/B, D274, and Massachusetts types. Reverse transcription-PCR-restriction fragment length polymorphism, nucleotide sequencing, and GenBank BLAST database analyses of the hypervariable region of the S1 subunit of the virus spike gene showed that the three isolates, designated TN20/00, TN200/01, and TN335/01, share from 64% to 82% homologies between each other but are very different from the H120 strain, the only infectious bronchitis vaccine used in Tunisia. In addition, they showed from 57% to 78% similarities with the European genotypes, including D274 and 793/B. Phylogenetic data allowed classification of the three Tunisian isolates as new genotypes placed inside the same genetic group as the CR88121 and D274 genotypes but very distant from the Massachusetts genotype. Cross-virus neutralization tests confirmed the genotyping results and showed that both TN200/01 and TN335/01 isolates are serologically related, whereas the TN20/00 is closer to TN335/01 than to TN200/01. Moreover, all three Tunisian isolates are closely related to the European variant serotypes, including the CR88121 and the D274 strains, but none is serologically related to the H120 vaccine strain. These data demonstrated, for the first time in Tunisia, the cocirculation of IBV variant serotypes along with the Massachusetts type, causing severe clinical diseases and high economic losses to the poultry industry.