Thermostability study of virulent Newcastle disease viruses isolated in Southern Angola.

Newcastle disease (ND) is endemic in Angola. Several outbreaks of ND occurred in small backyard flocks and village chickens with high mortality in the southern provinces of the country, Cunene, Namibe and Huíla, in 2016 and 2018. In those years, 15 virulent ND virus (NDV) strains were isolated and grouped within subgenotype 2 of genotype VII (subgenotype VII.2). We now present a study on the thermostability of the isolates, aiming at the selection of the most thermostable strains that, after being genetically modified to reduce their virulence, can be adapted to the production of vaccines less dependent on cold chain and more adequate to protect native chickens against ND. Heat-inactivation kinetics of haemagglutinin (Ha) activity and infectivity (I) of the isolates were determined by incubating aliquots of virus at 56 °C for different time intervals. The two isolates from Namibe province showed a decrease in infectivity of 2 log10 in ≤ 10 min, therefore belonging to the I-phenotype, but while the NB1 isolate from 2016 maintained the Ha activity up to 30 min and was classified as thermostable virus (I-Ha+), the Ha activity of the 2018 NB2 isolate decreased by 2 log2 in 30 min, being classified as a thermolabile virus (I-Ha-). Of the 13 NDV isolates from Huíla province, 10 isolates were classified as thermostable, eight with phenotype I+Ha+ and 2 with phenotype I-Ha+. The other three isolates from this province were classified as thermolabile viruses (I-Ha-).Contribution: This study will contribute to the control and/or eradication of Newcastle disease virus in Angola. The thermostable viral strains isolated from chickens in the country can be genetically manipulated by reverse genetic technology in order to reduce their virulence and use them as a vaccine in the remote areas of Angola.

Molecular characterization and phylogenetic analysis of Newcastle disease viruses isolated in southern Angola, 2016-2018.

Newcastle disease (ND) is a highly contagious viral disease that affects many bird species worldwide. This study presents the results of the molecular characterization and phylogenetic analysis of 15 virulent ND viruses (NDV) isolated from chickens during outbreaks reported in 2016 and 2018, in the provinces of Namibe and Huíla, in southern Angola. A 561-nucleotide fragment of the F gene was amplified by RT-PCR and sequenced for molecular characterization. Results showed that in all isolates the amino acid sequence comprising the cleavage site of fusion protein is characteristic of virulent viruses (RRQKR/F). Blast analysis revealed high similarity (99.2%) between two isolates from Huíla province, HLA4 and HLA6, and strain 5620 (GenBank accession number KY747479) isolated from chickens in the neighboring country Namibia, in 2016. The other isolates investigated are more related (97.0%) with strain 6195 (GenBank accession number KY747480), also isolated in Namibia in 2016. Phylogenetic analysis performed by Maximum Likelihood, Neighbor-joining and Bayesian methods revealed that like the strains isolated in Namibia, the isolates from southern Angola also belong to subgenotype 2 of genotype VII (VII.2). The network analysis revealed that NBA1 isolate from Angola is closer to a common ancestor than the isolates from Namibia, suggesting that transmission of ND viruses occurred from Angola to Namibia.

West Nile virus transmission potential in Portugal.

It is unclear whether West Nile virus (WNV) circulates endemically in Portugal. Despite the country's adequate climate for transmission, Portugal has only reported four human WNV infections so far. We performed a review of WNV-related data (1966-2020), explored mosquito (2016-2019) and land type distributions (1992-2019), and used climate data (1981-2019) to estimate WNV transmission suitability in Portugal. Serological and molecular evidence of WNV circulation from animals and vectors was largely restricted to the south. Land type and climate-driven transmission suitability distributions, but not the distribution of WNV-capable vectors, were compatible with the North-South divide present in serological and molecular evidence of WNV circulation. Our study offers a comprehensive, data-informed perspective and review on the past epidemiology, surveillance and climate-driven transmission suitability of WNV in Portugal, highlighting the south as a subregion of importance. Given the recent WNV outbreaks across Europe, our results support a timely change towards local, active surveillance.

DNA Vaccines Against Maedi-Visna Virus.

Maedi-visna virus (MVV) is an ovine retrovirus of the Lentivirus genus, responsible for a chronic and progressive disease of sheep with a high prevalence all over the world. Therefore, measures aiming at the control of MVV infection are necessary, and the development of DNA vaccines may be the ideal approach. A DNA vaccine is an antigen-encoding bacterial plasmid designed to mimic infections safely, with ability to generate both humoral and cellular long-lasting immune responses once it is delivered to the host.Here, we describe the development and evaluation of DNA vaccines against ovine maedi-visna virus. The first step is the design of the vaccines, including the choice of the backbone vector and the nucleotide sequences to use as antigen-encoding sequences. Once constructed, the vaccines may be produced with high quality for use in in vitro and in vivo tests. In vitro assays are performed through transfection of animal cells to confirm the expression of the protein, while in vivo tests are carried out by mouse and/or sheep immunization in order to check humoral and cellular responses to the vaccines and conclude about their efficiency. Several approaches may be later performed in order to enhance the effectiveness of the vaccines, such as the introduction of targeting sequences, the use of a prime-boost strategy, the administration of a combined vaccine, and the use of liposomes as delivery vehicle.

AVIAN POXVIRUS INFECTION IN A FLAMINGO (PHOENICOPTERUS RUBER) OF THE LISBON ZOO.

Avian poxviruses (APV) are very large viruses spread worldwide in a variety of hosts. They are responsible for a disease usually referred to as pox, mainly characterized by nodular lesions on feather-free regions of the body. On May 2010, a young American flamingo (Phoenicopterus ruber) of the Lisbon Zoo (Portugal) developed a nodular lesion suggestive of poxvirus infection on its right foot. Avipoxvirus was isolated from the lesion and a fragment of the P4b-encoding gene was amplified by polymerase chain reaction. The nucleotide sequence of the amplicon was determined and analyzed. A close relationship (100% identity) was observed between the flamingo poxvirus and isolates from great bustard (Hungary 2005), house sparrow (Morocco 2009), MacQueen's bustard (Morocco 2011), and Houbara bustard (Morocco 2010 and 2011), suggesting interspecies transmission as a possible source of infection. To strengthen the investigation, the 5' and 3' ends of genes cnpv186 and cnpv 187, respectively, were also analyzed. The cnpv186-187 fragment exhibited 100% identity with MacQueen's bustard and Houbara bustard isolates, both from Morocco 2011. Phylogenetic analyses based in both fragments grouped the flamingo isolate consistently within clade B2 of canarypox. However, the phylogenetic relationships among the different representatives of avian poxviruses were more comprehensive in the tree based on the concatenated coding sequences of the cnpv186-187 fragment, rather than on the P4b-coding gene. The clearer displacement and distribution of the isolates regarding their host species in this last tree suggests the potential usefulness of this genomic region to refine avian poxvirus classification.

A real time Taqman RT-PCR for the detection of rabbit hemorrhagic disease virus 2 (RHDV2).

A specific real time RT-PCR for the detection of RHDV2 was developed and validated using RHDV and RHDV2 RNA preparations from positive field samples. The system was designed to amplify a 127 nucleotide-long RNA region located within the vp60 gene, based on the alignment of six sequences originated in Portugal, obtained in our laboratory, and 11 sequences from France and Italy. The primers and probe target sequences are highly conserved in the vast majority of the RHDV2 sequences presently known. In the sequences showing variability, only one mismatch is found per strain, usually outlying the 3' end of the primer or probe hybridization sequences. The specificity of the method was demonstrated in vitro with a panel of common rabbit pathogens. Standardization was performed with RNA transcripts obtained from a recombinant plasmid harboring the target sequence. The method was able to detected nine RNA molecules with an efficiency of 99.4% and a R(2) value of 1. Repeatability and reproducibility of the method were very high, with coefficients of variation lower than 2.40%. The assay was proven a valuable tool to diagnose most of RDVH2 circulating strains, and may be also useful to monitor viral loads, and consequently, disease progression and vaccination efficacy.

U exon variability as a discriminatory tool for Bayesian analysis of adenoviruses.

Members of the family Adenoviridae are divided into five genera and infect a wide variety of vertebrates with a narrow host range, usually restricted to one species. Due to the high genetic diversity and distinct genomic organization, classification of adenoviruses is difficult to achieve and often performed by phylogenetic analysis. The most commonly used region for phylogenetic inference of adenoviruses is the DNA polymerase (AdPol) gene carried out at amino acid level. In this paper we investigated the suitability of the U exon to discriminate adenoviruses. The tree based on this genus-common feature, obtained with 23 short amino acid sequences, offered a clearest discrimination of the members of the adenovirus family (Adenoviridae) than the trees generated with the complete or partial polymerase protein sequences. Therefore, our results demonstrate that the U exon is an effective tool for a refined phylogenetic inference and genus classification of the Adenoviridae family.

Multiyear surveillance of influenza A virus in wild birds in Portugal.

This report presents the results of a multiyear (2005 to 2009) study of avian influenza virus (AIV) occurrence in wild birds in Portugal. A total of 5691 samples from wild birds belonging to 13 different orders were examined. Ninety-three samples tested positive for AIV by matrix reverse transcriptase-polymerase chain reaction, giving a total prevalence of 1.63%. Twenty-one viruses were successfully cultured in embryonated chicken eggs, which represent a rate of viral infectivity of 22.6% in the samples. Nine subtypes of haemagglutinin (H1, H3 to H7, H9 to H11) and eight subtypes of neuraminidase (N1 to N4, N6 to N9) were identified in 20 different combinations. The most prevalent subtypes of haemagglutinin detected were H5, H1 and H4, while for neuraminidase subtypes N2 and N6 were the most common. The subtype combinations H4N6 and H1N1 were predominant (15.1%). All H5 and H7 viruses detected in the present study were low pathogenic for poultry as determined by the sequence of amino acids at the cleavage site of haemagglutinin. The full-length nucleotide sequences of five H5, one H7 and five N3 genes were analysed phylogenetically. The Bayesian analysis revealed that all but one of the strains analysed were closely related to isolates detected in the same period in North and Central European countries. Three H5N3 isolates, all from 2007, formed a separate cluster in both H5 and N3 phylogenetic trees. This study provides evidence that various subtypes of AIV, including subtypes H5 and H7, circulate in Portugal, which may pose a risk to industrial poultry.

Molecular study of porcine circovirus type 2 circulating in Portugal.

Porcine circovirus type 2 (PCV2) belongs to the genus Circovirus of the Circoviridae family and has been associated with a disease named postweaning multisystemic wasting syndrome (PMWS). In Portugal the disease caused severe problems mainly between 1995 and 2003, but is nowadays less evident probably as the result of vaccination programmes initiated in 2007. This study reports the molecular analysis of 22 PCV2 strains obtained from domestic pigs originated from different regions of Portugal. One hundred and seventy-seven samples from PCV2 suspected cases received between 2003 and 2010 were analysed, 79 (44.6%) of which tested PCV2 PCR-positive. The entire genomes of 22 viruses were amplified and sequenced. Two major groups were observed, according to the genome length and in single nucleotide polymorphisms. The nucleotide similarity found among the PCV2 strains ranged between 94% and 99%. The Bayesian inference of phylogeny based on the genome of the strains studied revealed the existence of two distinct genetic groups consistent with the nucleotide sequence observations. The majority of the strains branched in genotype PCV2b, while six strains with a common geographical origin obtained between 2007 and 2009, were included in genotype PCV2a. The analysis performed with cap and rep genes confirmed that cap is a reliable alternative to full-length genome based phylogenetic studies of PCV2.

Development of a candidate DNA vaccine against Maedi-Visna virus.

DNA vaccine candidates against Maedi-Visna virus (MVV) infection in ovines were developed as an alternative to conventional vaccines. Candidates were constructed by cloning genes encoding the MVV gag polyprotein and gag proteins p16 and p25 fused to a beta-galactosidase reporter in a plasmid backbone. Transfection of different ovine cells showed a higher protein expression with plasmid lacZp16, which was hence further optimised by (i) removing a putative inhibitory sequence via reduction of the AU-content in the p16 gene or by (ii) introducing a secretory signal (Sc) to promote antigen secretion and increase its presentation to APCs. Unexpectedly, plasmids constructed on the basis of the first strategy by mutagenesis of lacZp16 (lacZp16mut(24)), led to a reduction in the expression of the antigen/reporter fusion in cultured ovine cells. This indicates that the high AU content in MVV does not inhibit protein expression. However, mice primed with lacZp16mut(24) and boosted with MVV protein displayed higher humoral response when compared with control lacZp16. The addition of the Sc signal (Sc-p16) led to lower amounts of intracellular antigen/reporter fusion in transfected ovine cells, thus confirming secretion. These findings correlate with in vivo experiments, which showed that mice primed with Sc-p16 and boosted with MVV exhibited stronger antibody responses when compared with control mice primed with lacZp16 and boosted with MVV. Stronger humoral responses were recorded by immunising mice with (i) Sc-p16 and lacZp16mut(24) plasmids together or with (ii) one plasmid containing both the mutations and the Sc signal.